SATELLINE-EASy Pro

User Guide v.1.7

IMPORTANT NOTICE

All rights to this manual are owned solely by SATEL Oy (referred to in this user guide as SATEL). All

rights reserved. The copying of this manual (without the written permission from the owner) by

printing, copying, recording or by any other means, or the full or partial translation of the manual

to any other language, including all programming languages, using any electrical, mechanical,

magnetic, optical, manual or other methods or devices is forbidden.

SATEL reserves the right to change the technical specifications or functions of its products, or to

discontinue the manufacture of any of its products or to discontinue the support of any of its

products, without any written announcement and urges its customers to ensure, that the information

at their disposal is valid.

SATEL software and programs are delivered ”as is”. The manufacturer does not grant any kind of

warranty including guarantees on suitability and applicability to a certain application. Under no

circumstances is the manufacturer or the developer of a program responsible for any possible

damages caused by the use of a program. The names of the programs as well as all copyrights

relating to the programs are the sole property of Satel. Any transfer, licensing to a third party,

leasing, renting, transportation, copying, editing, translating, modifying into another programming

language or reverse engineering for any intent is forbidden without the written consent of Satel.

SATEL PRODUCTS HAVE NOT BEEN DESIGNED, INTENDED NOR INSPECTED TO BE USED IN

ANY LIFE SUPPORT RELATED DEVICE OR SYSTEM RELATED FUNCTION NOR AS A PART OF ANY

OTHER CRITICAL SYSTEM AND ARE GRANTED NO FUNCTIONAL WARRANTY IF THEY ARE

USED IN ANY OF THE APPLICATIONS MENTIONED.

Salo, FINLAND 2018

No part of this document may be reproduced, transmitted or stored in a retrieval system in any form or by any means without the

prior written permission of SATEL Oy.

This document is provided in confidence and must not be distributed to third parties without the express permission of SATEL Oy.

SATELLINE-EASy Pro

User Guide v.1.7

RESTRICTIONS ON USE

SATELLINE-EASy Pro radio modems have been designed to operate on frequency ranges, the exact

use of which differs from one region and/or country to another. The user of a radio modem must

take care that the said device is not operated without the permission of the local authorities on

frequencies other than those specifically reserved and intended for use without a specific permit.

The allowed max output power depends on the type of station.

SATELLINE-EASy Pro is allowed to be used in the following countries, either on licence free channels

or on channels where the operation requires a licence. More detailed information is available at

the local frequency management authority.

Countries: AT, AU, BE, BG, CA, CH, CY, CZ, DE, DK, EE, ES, FI, FR, GB, GR, HU, IE, IS, IT, LT,

LU, LV, MT, NL, NO, PL, PT, RO, RU, SE, SK and US.

WARNING! Users of SATELLINE-EASy Pro radio modems in North America should be aware,

that due to the allocation of the frequency band 406.0 – 406.1 MHz for government use only,

the use of radio modem on this frequency band without a proper permit is strictly forbidden.

WARNING – RF Exposure

To comply with RF exposure compliance requirements of CFR Part 47, §1.1310, a separation

distance of at least 2.57 m must be maintained between the antenna of this device and all

persons. To comply with RF exposure compliance requirements of RSS-102 Issue 5, a

separation distance of at least 3.35 m must be maintained between the antenna of this device

and all persons. This device must not be co-located or operating in conjunction with any other

antenna or transmitter.

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User Guide v.1.7

PRODUCT CONFORMITY

SATEL Oy hereby declares that SATELLINE-EASy Pro radio modem is in compliance with the essential

requirements (radio performance, electromagnetic compatibility and electrical safety) and other

relevant provisions of Directive 1999/5/EC. Therefore the equipment is labelled with the following

CE-marking. The notification sign informs users that the operating frequency range of the device is

not harmonised throughout the market area, and the local spectrum authority should be contacted

before the usage of the radio modem is used.

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User Guide v.1.7

WARRANTY AND SAFETY INSTRUCTIONS

Read these safety instructions carefully before using the product:

-Warranty will be void, if the product is used in any way that is in contradiction with the

instructions given in this manual, or if the radio modem housing has been opened or

tampered with.

-The radio modem is only to be operated at frequencies allocated by local authorities, and

without exceeding the given maximum allowed output power ratings. Satel and its

distributors are not responsible, if any products manufactured by it are used in unlawful

ways.

-The devices mentioned in this manual are to be used only according to the instructions

described in this manual. Faultless and safe operation of the devices can be guaranteed

only if the transport, storage, operation and handling of the devices are appropriate. This

also applies to the maintenance of the products.

-To prevent damage both the radio modem and any terminal devices must always be

switched OFF before connecting or disconnecting the serial connection cable. It should be

ascertained that different devices used have the same ground potential. Before connecting

any power cables the output voltage of the power supply should be checked.

-If the device uses an outdoor antenna, the antenna cable jacket must be grounded.

SATELLINE-EASy Pro

User Guide v.1.7

TABLE OF CONTENTS

IMPORTANT NOTICE ......................................................................................... 1

RESTRICTIONS ON USE ..................................................................................... 2

PRODUCT CONFORMITY .................................................................................... 3

WARRANTY AND SAFETY INSTRUCTIONS ......................................................... 4

TABLE OF CONTENTS ........................................................................................ 5

INTRODUCTION .............................................................................................. 10

1 SATELLINE-EASY PRO TECHNICAL SPECIFICATIONS .......................... 11

1.1 Default settings .................................................................................... 13

2 OTHER FEATURES ................................................................................. 15

3 SATELLINE-EASY PRO SPECIAL FEATURES ............................................... 16

3.1 Call Sign ............................................................................................... 16

3.2 Temperature protection of RF power amplifier ................................... 16

3.3 Protection of current ............................................................................ 17

4 SERIAL INTERFACE .............................................................................. 18

5 USER INTERFACE ................................................................................. 19

5.1 LED-indicators ...................................................................................... 19

5.2 Display and push buttons .................................................................... 19

5.2.1 SATELLINE-EASy Pro LCD-display after power-up ........................................................ 20

6 CONNECTION INTERFACES ................................................................ 22

6.1 RS-232 interface ................................................................................... 22

6.2 Connectors ............................................................................................ 22

7 RF INTERFACE ..................................................................................... 24

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7.1 Transmitter ........................................................................................... 24

7.2 Receiver ................................................................................................ 24

7.3 Priority RX/TX ....................................................................................... 25

7.4 Forward Error Correction ..................................................................... 25

7.5 Error checking ...................................................................................... 26

7.6 Dual radio function, separate RX/TX-frequencies .............................. 26

7.7 Free Channel Scan (FCS) ...................................................................... 27

7.8 User data whitening ............................................................................ 28

7.9 Pacific Crest and TRIMTALK compatibility ............................................ 28

7.9.1 General ................................................................................................................. 28

7.9.2 Configuration in Programming menu ........................................................................ 29

7.9.3 Configuration by using SL commands ....................................................................... 29

7.9.4 Settings ................................................................................................................. 29

7.9.5 Repeater function.................................................................................................... 32

7.9.6 Support for Local / Remote addresses ....................................................................... 32

7.9.7 Latency .................................................................................................................. 32

7.9.7.1 Transmission delays using Pacific Crest 4FSK on 25 kHz channel ....................... 33

7.9.7.2 Transmission delays using Pacific Crest GMSK on 25 kHz channel ..................... 33

8 TRANSPARENT DATA TRANSMISSION ............................................... 34

8.1 Serial interface, data format ............................................................... 34

8.2 Handshake lines .................................................................................. 34

8.2.1 CTS-line ................................................................................................................ 35

8.2.2 CD-line ................................................................................................................. 35

8.2.3 RTS-line ................................................................................................................. 36

8.3 Timing and delays during data transmission ..................................... 36

8.3.1 Data buffering in the radio data modem .................................................................... 36

8.3.2 Pause length .......................................................................................................... 37

8.3.3 TX delay ................................................................................................................ 38

8.4 Testing .................................................................................................. 38

9 SETTINGS ............................................................................................ 40

9.1 Programming Mode ............................................................................. 40

9.2 Changing parameters using a terminal device ................................... 40

9.2.1 Changing the settings .............................................................................................. 40

9.2.2 Restoring factory settings.......................................................................................... 41

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9.2.3 Changing frequency (active radio channel frequency) ................................................. 42

9.2.4 Changing reference frequency.................................................................................. 43

9.2.5 Changing channel spacing ...................................................................................... 44

9.2.6 Changing radio settings .......................................................................................... 45

9.2.7 Free channel scan................................................................................................... 46

9.2.8 Changing addressing settings (primary and secondary RX- and TX-addresses) ................ 47

9.2.9 Changing serial port settings (Port 1) ......................................................................... 48

9.2.10 Modification of handshaking functions ...................................................................... 50

9.2.11 Special functions..................................................................................................... 52

9.2.12 Modification of routing ............................................................................................ 53

9.2.13 Activating tests ........................................................................................................ 57

9.2.14 Restoring factory settings.......................................................................................... 57

9.2.15 Info ....................................................................................................................... 57

9.2.16 Saving modified settings into the permanent memory .................................................. 58

9.2.17 Updating Firmware ................................................................................................. 58

9.3 Changing parameters using the LCD-display ..................................... 58

9.3.1 Changing frequency (frequency of the active TX/RX radio channel) ............................... 59

9.3.2 Checking / changing the reference frequency ............................................................ 61

9.3.3 Changing radio settings (transmitter power and receiver sensitivity) ............................... 62

9.3.4 Changing addressing .............................................................................................. 64

9.3.5 Changing serial port settings (Port 1) ......................................................................... 65

9.3.6 Modification of handshaking functions ...................................................................... 66

9.3.7 Selecting special functions ....................................................................................... 67

9.3.8 Activating tests ........................................................................................................ 67

9.3.9 Restoring factory settings.......................................................................................... 68

9.3.10 Adjusting the contrast of the LCD-display ................................................................... 68

9.3.11 Saving modified values into the internal memory ........................................................ 69

9.4 Changing parameters using the SL-commands .................................. 69

9.4.1 Frequency .............................................................................................................. 70

9.4.2 Addressing ............................................................................................................. 71

9.4.3 Radio parameters ................................................................................................... 71

9.4.4 Other functions ...................................................................................................... 72

10 REPEATER MODE AND ADDRESSING ................................................. 73

10.1 Repeater ............................................................................................... 73

10.2 Addressing ........................................................................................... 74

10.2.1 Connection between two points ................................................................................ 76

10.2.2 System of one base station and several substations ..................................................... 76

10.3 Using repeaters and addresses in the same system ........................... 77

10.3.1 System with several repeaters ................................................................................... 77

10.3.2 Repeater chain using address pairs ........................................................................... 78

10.3.3 Repeater chain using dual addressing ....................................................................... 79

10.3.4 Redundant repeater chain ........................................................................................ 79

11 MESSAGE ROUTING ........................................................................... 80

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11.1 Introduction to Message Routing ......................................................... 80

11.1.1 Features of Message Routing ................................................................................... 81

11.1.2 Limitations of Message Routing ................................................................................ 81

11.1.3 Getting started with Message Routing ........................................................................ 81

11.1.4 SaTerm and the configuration of the Message Routing ................................................ 82

11.1.5 Manual configuration of the Message Routing ............................................................ 82

11.1.6 Configuration of the protocol in Message Routing ...................................................... 83

11.2 Operating modes of Message Routing ................................................ 83

11.3 Detailed description of Message Routing ............................................ 85

11.3.1 Source Mode Routing .............................................................................................. 85

11.3.2 Virtual Mode Routing .............................................................................................. 85

11.3.3 Overhop function in Source Mode Routing ................................................................ 86

11.3.4 Network ID ............................................................................................................ 87

12 INSTALLATION ................................................................................... 88

12.1 Installation of a Radio Data Modem ................................................... 88

12.1.1 RS-232 Wiring ....................................................................................................... 88

12.1.2 Fuse ...................................................................................................................... 89

12.1.3 Power supply .......................................................................................................... 89

12.2 Antenna installation ............................................................................ 90

12.2.1 Mobile equipment................................................................................................... 90

12.2.2 Base stations .......................................................................................................... 90

12.2.3 General antenna installation instructions ................................................................... 90

13 DESIGNING SYSTEMS ......................................................................... 94

13.1 Factors affecting the quality and distance of the radio connection .... 94

13.2 Radio field strength ............................................................................. 95

14 CHECK LIST ......................................................................................... 96

15 ACCESSORIES ...................................................................................... 97

15.1 RS-232 cables and adapters ................................................................ 97

15.2 Power cable .......................................................................................... 97

15.3 RF-cables .............................................................................................. 97

15.4 Antennas .............................................................................................. 98

15.5 Filters and lightning protectors ........................................................... 98

16 APPENDIX A ....................................................................................... 99

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17 APPENDIX B ..................................................................................... 100

17.1 Functional delays ............................................................................... 100

17.2 Transmission related delays .............................................................. 100

17.2.1 Transmission delays when the radio TX frequency is changed ......................................101

17.2.2 Transmission delays when using a 12.5 kHz radio channel .........................................101

17.2.3 Transmission delays using a 25 kHz radio channel ....................................................103

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User Guide v.1.7

INTRODUCTION

SATEL Oy is a Finnish electronics and Telecommunications Company specialising in the design and

manufacture of wireless data communication products. SATEL designs, manufactures and sells

radio modems intended for use in applications ranging from data transfer to alarm relay systems.

End users of SATEL products include both public organisations and private individuals.

SATEL Oy is the leading European manufacturer of radio modems. SATEL radio modems have been

certified in most European countries and also in many non-European countries.

SATELLINE-EASy Pro is an IP67 classified UHF radio modem with a high power (35 W) transmitter,

wide 70 MHz tuning range (403...473 MHz) in one hardware and selectable channel spacing. The

SATELLINE-EASy Pro can offer radio speeds up to 19.2 kbps and has a selectable serial interface

speed between 300 … 38 400 bps.

SATELLINE-EASy Pro includes a built-in LCD display, offering the user both new features and

increased flexibility. No longer do you have to rely on access to a PC or terminal device to check

or alter the configuration of the unit, now this can be achieved by viewing the LCD-display and

using the four (4) push buttons. The display is also a useful tool in testing the radio connection

between radio modems.

SATELLINE-EASy Pro facilitates the construction of large radio networks using the built-in Message

Routing function, which is both fully transparent to the user and can be used with most system

protocols.

The radio modem also offers option of error correction, utilising the FEC-method (Forward Error

Correction). FEC can be used to minimise errors caused by noisy channels.

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User Guide v.1.7

1 SATELLINE-EASy Pro technical specifications

SATELLINE-EASy Pro complies with the following international standards:

o EN 300 113-2 (RF-requirements)

o EN 301 489 (EMC-requirements)

o EN 60950 (Safety Standard)

o FCC CFR47 part 90

RECEIVER

TRANSMITTER

Note!

Frequency Range

403...473 MHz

Tuning Range

70 MHz

Channel Spacing

12.5 kHz / 20 kHz / 25 kHz

Programmable

Spurious Radiations

< 2 nW

According to EN 55022 and FCC

CFR47 part 90

Duty Cycle 35W *)

100% (@22°C) 20 min

100% (@35 °C) 13 min

40% No limit

Duty Cycle 10W *)

100% (@22°C) No limit

100% (@35 °C) 50 min

40% No limit

Frequency Error

Tolerance

< 1 kHz

Sensitivity

-114 dBm @ 12.5 kHz

-111 dBm @ 25 kHz

(BER < 10 E-3)

FEC ON

See: Note 1

Co-channel Rejection

>-12 dB

FEC ON

Adjacent Channel

Selectivity

> 47 dB @12.5 kHz

> 52 dB @ 25 kHz

FEC ON

Selectivity

67 dB @ ±50 kHz

FEC ON

Intermodulation

Attenuation

> 60 dB

FEC ON

Blocking

> 86 dB

FEC ON

Spurious Rejection

> 60 dB

FEC ON

Power Consumption

< 1.8 W

120 W typical @ 35 W, min 12 Vdc

100 W typical @ 25W

Power Save Mode

Consumption

SLEEP State:0,4 W typical

Communication Mode

Half-Duplex

Type of Emission

F1D

Carrier power

10, 20, 25, 35 W / 50 ohm (default)

5, 10, 20, 25W / 50 ohm (Option **)

Adjacent Channel

Power

According to EN 55022 and FCC

CFR47 part 90

Carrier power stability

+ 2 dB / - 3 dB

*) If high output power is used continuously or with a high cycle, the equipment generates excess heat. The output

power is automatically decreased when necessary to prevent overheating. Typical operating times are shown in the

chart with different output powers and duty cycles @ 22°C and 35 °C (see chapter 3.2).

**) Limited output power is available as on order option

Note 1

Due to radio electronic design, the receiver is about 6 – 15 dB less sensitive on the following frequencies:

403.000, 416.000, 429.000, 442.000, 455.000, 468.000, 409.5875 and 469.200 MHz.

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User Guide v.1.7

DATA MODEM

Timing

RS-232

Electrical Interface

RS-232

Interface Connector

8-pin ODU

Data speed of

I/O-interface

300 – 38400 bps

Data speed of Radio

Interface

19200 bps (25 kHz channel) /

9600 bps (12.5 / 20 kHz channel)

Data Formats

Asynchronous RS-232

Modulation

4FSK, GMSK, (PacificCrest, TRIMTALK **)

**) TRIMTALK is a trademark of Trimble Navigation Ltd.

GENERAL

DC input ranges

Nominal voltage : +9...+16 V

4-pin ODU

MINI-Snap Size 1

Temperature Ranges

-25 °C...+55 °C

Complies with

standards

-40 °C...+75 °C (absolute min / max)

Functional

-40 °C... +85°C

Storage

Antenna Connector

TNC, 50 ohm, female

Construction

Aluminium housing

Size L x W x T

189 x 138 x 71 mm (with connectors)

Weight

1420g

IP Classification

IP67 (NEMA 6)

OTHER MEASUREMENTS

ESD-failure threshold

8 kV contact, 15 kV air discharge

Immunity test

10V/m

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User Guide v.1.7

1.1 Default settings

SATELLINE-EASy Pro is shipped with the following default settings (unless otherwise specifically

agreed):

DEFAULT VALUES OF THE ADJUSTABLE SETTINGS (user can change settings later on)

Setting

Default value

Range

Radio frequency

Operating TX frequency

438.000 MHz

Range: 403 - 473 MHz

Operating RX frequency

438.000 MHz

Range: 403 - 473 MHz

Reference Frequency

438.000 MHz

Range: 403 - 473 MHz

Channel Spacing

12.5 kHz

Range: 12.5, 20 or 25 kHz

Radio settings

Tx Power

35 W

Range: 10, 20, 25 and 35 W

Signal threshold

-115 dBm

-80 … -118 dBm

FCS

OFF

ON/OFF

Tx-Start Delay

0 ms

0-65535 ms

Radio Compatibility

SATEL 3AS

SATELLINE-3AS, Option1=PCC 4-FSK,

Option 2=PCC GMSK, 3=TrimTalk 450s (P),

4=TrimTalk450s (T), 5=PCC-FST

Addressing

RX Address

OFF

ON/OFF

TX Address

OFF

ON/OFF

RX addressing to RS port

OFF

ON/OFF

TX address auto switch

OFF

ON/OFF

Serial port 1

Status

ON/OFF

Interface

RS-232

Fixed

Data speed

9600 bps

300, 600, 1200, 2400, 4800, 9600, 19200,

38400 bps

Data bits

7, 8, 9

Parity bits

None

None, Even, Odd

Stop bits

1, 2

Handshaking

Handshaking lines apply to the DATA-port.

CTS

Clear to send

Clear to send, TX buffer state

RSSI threshold

RSSI- threshold, Data on channel,

Always ON, External Antenna Control

RTS

Ignored

Ignored, Flow Control, Reception Control

Pause length

3 bytes

3 … 255 bytes

Additional setup

Error correction

OFF

ON/OFF

Error check

OFF

ON/OFF

Repeater

OFF

ON/OFF

SL-commands

ON/OFF

Priority

RX/TX

FullCR16 Check

OFF

ON/OFF

Routing

OFF

ON/OFF

Tests

OFF

ON/OFF

The power cable (+V

and GND) must be connected to a power supply with a proper output voltage

(+9…+16 V

) and with a minimum output current of 15A.

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User Guide v.1.7

When creating a test connection, you can use Windows™ based SATEL Configuration Manager

(available for free from authorised SATEL dealers or directly from SATEL Customer Support),

HyperTerminal (which is included in most the Windows™ based operating system packages), or

almost any other terminal program.

Basic settings for the serial port of the host computer, when using a terminal program to

communicate with SATEL radio modems, are as follows: “COM1, 9600 bps, 8-bit data, none

parity, 1 stop bit”.

If the serial port designated as COM1 in the host computer is reserved, any other free serial port in

the host computer can be used (with the settings listed).

Note: If you want to change the settings of a radio modem using the Programming Mode of

the radio modem with the help of an external terminal, the data speed of the terminal must be

9600 bps.

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User Guide v.1.7

2 OTHER FEATURES

SATELLINE-EASy Pro radio modem fulfils the IP67 (NEMA 6) standard. With an IP67 rating a product

will be totally protected against dust and remain completely sealed when immersed in water to a

depth between 15 cm and 1 meter.

SATELLINE-EASy Pro modem is equipped with a high power 35 W transmitter. It is designed for

easy mobile use in demanding field conditions.

The SATELLINE-EASy Pro is equipped with a liquid crystal display (LCD) and a keypad, used to

indicate the current operating status, as well as for changing the operating channel and power level

of the radio modem.

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User Guide v.1.7

3 SATELLINE-EASy Pro SPECIAL FEATURES

3.1 Call Sign

SATELLINE-EASy Pro has a CALL SIGN identifier -feature required in some countries. A call sign

can be formally assigned by a government agency, informally adopted by individuals or

organizations, or even cryptographically encoded to disguise identity of a station.

A call sign is an FCC (in US) or other regulatory authority assigned identifier that is issued along

with the license for operating a radio modem. This field is for entering your call sign. The modem

automatically broadcasts the specified call sign periodically. If this field is empty, there is no call

sign information.

Call sign setup can be found in PROG-menu clause Radio settings and further in its sub clause Call

sign. Call sign has three (3) different setups. With Call Sign Mode you can set Morse code

transmission ON or OFF. Call Sign ID defines which Morse code will be transmitted. Only capital

letters and numbers are allowed. If the digits are wrong kind, there will be message: Value error.

Small letters will be converted to capital letters automatically. If Call Sign ID field remains empty,

the Call Sign transmission will not be activated. Call Sign Timer is the transmission delay of Morse

codes. Minimum and default transmission time is 15 minutes.

During Call sign transmission the CTS-line of the modem is not in active state. This is to inform

terminal equipment that the modem is not ready to neither receive data from serial port nor forward

it. The modem deletes all data (also SL commands), which has arrived to serial port during call sign

transmission. Call sign transmission lasts 1-4 seconds depending on the number of digits.

3.2 Temperature protection of RF power amplifier

RF power amplifier is protected against overheating. The power of transmitter is lowered step by

step if the inner temperature exceeds certain levels as shown below.

Temperature inside a modem

Carrier power

Over 75°C

25 W

80°C

20 W

85°C

10 W

90°C

0 W (transmitter OFF)

When the ambient temperature is under 30°C and transmitter duty cycle does not exceed 40%,

the temperature inside the modem does not exceed the trigger level.

The internal temperature is measured in the beginning of every transmission and at once when

modem cools down. The carrier power increases with falling temperature so that at 88°C carrier

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User Guide v.1.7

power goes to 10W, at 83°C to 20W, at 78°C to 25W and at 73°C the modem operates again at

the full 35W carrier power.

3.3 Protection of current

In case of a bad antenna impedance matching the current consumption of the Power Amplifier may

be too high. For this reason the maximum current is limited to 12 A. If the current tends to increase

over 12 A, the automatic power control decreases the power level until the current drops under

11.5 A. LCD indicates the actual power level of the transmitter. A new transmission starts always

with the nominal power level. The power control scheme is applied only when the nominal power

level is 35 W.

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User Guide v.1.7

4 SERIAL INTERFACE

The radio modem is referred to as DCE (Data Communication Equipment) whereas the PC is

referred to as DTE (Data Terminal Equipment). SATELLINE-EASy Pro includes a 8 pin ODU which

contains all the connections required to establish communication between the radio modem, acting

as the DCE, and the PC, acting as the DTE.

All EMC-requirements set forth by authorities have been taken into account in the design of the

radio modem. The radio modem user is thereby not required to take any special actions regarding

EMC-shielding (of the radio modem).

The radio modem has one serial port, Port 1 which complies with the RS-232 standard.

Signal

8-pin ODU

CTS

RTS

GND

MODE

Description of pins:

 RD = Receive Data. Output of the data received from the radio modem to the DTE.

 TD = Transmit Data. Input of the data to be transmitted from the DTE to the radio modem.

 CTS = Clear To Send.

 RTS = Request To Send.

 MODE = operational mode. When the MODE-line is connected to ground (GND), the radio

modem enters the Programming Mode, which is used to change the settings of the radio

modem (i.e. configuration, set-up). If the MODE-line is not connected, the radio modem will

enter the Data Transfer Mode, in which data can be transmitted and received. The

Programming Mode is used only when installing a radio modem and changing the operational

parameters of a network. Normally the radio modem is always in the Data Transfer Mode.

 GND = both the negative pole of the operating voltage and the signal ground.

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User Guide v.1.7

5 USER INTERFACE

5.1 LED-indicators

There are five (5) LED indicators on the front panel of the radio modem, and they give an indication

of the status of the serial port and the radio interface:

Description of the LED-

indicators:

5.2 Display and push buttons

SATELLINE-EASy Pro includes a LCD-display with a backlight. In the Data Transfer Mode the display

will show the operating settings of the radio modem, for example the radio field strength and the

supply voltage. By using the push buttons and the LCD-display, it is possible to change most of the

settings of the radio modem, without the need for an external terminal. The display backlight

illuminates automatically as soon as a button is pressed.

The radio modem will shift into the Programming Mode by pressing the SETUP-push button ().

When activated the menu shows a listing of the changeable parameters.

With the help of the main menu, sub-menus can be selected which in turn can be used to change

the settings. You can always return to the previous higher level of the menu structure by pressing

the CANCEL (or BACK) push button (●). Pressing the  or  button changes settings or moves

in the menu. Selections are confirmed by pressing the SELECT or SET button. In case of numerical

values the digit to be changed is selected by pressing the NEXT button (see following page).

LED

Indication

OFF

Red

Orange

Green

RTS

RTS-line status

Inactive

Active

CTS

CTS-line status

Inactive

Active

TD-line status

No data

Data

Test Tx active

RD-line status

No data

Data

Radio status

No signal

Transmission

Noise

Reception

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User Guide v.1.7

5.2.1 SATELLINE-EASy Pro LCD-display after power-up

The display shows the basic information which is revolving automatically in 5 seconds.

Display in Data Transfer Mode (transmit/receive mode)

n-120 11.5V

TX 438.000.000

RX 438.000.000

TX:35W SETUP

n-120: Field strength of last received

transmission or noise level.

11.5 = Supply voltage/battery level

indicator.

TX/RX = Operational TX and RX frequency.

n-120 11.5V

Compatibility:

Satel 3AS

TX:35W SETUP

Satel 3AS is one of the radio protocols.

TX:35W = Current output transmission

power is 35W

n-120 11.5V

TX Power: 35W

Spacing: 25 kHz

TX:35W SETUP

TX Power= Output transmission power.

Spacing= Channel spacing

n-120 11.5V

Ref 438.000.000

Com: 9600N81

TX:35W SETUP

Ref.= Reference frequency

Communication Port Settings:

9600=Baud rate. N=None parity

8=Parity bits. 1=Stop bits.

INFO - SETUP

By pressing cancel/back button (●) the modem goes to detailed information about the modem’s

settings.

By pressing SETUP button () the modem goes to the programming menu.

SATELLINE-EASy Pro

User Guide v.1.7

Display in Info mode.

Pressing shows the next window.

EASy-35W

S/N:

FW:06.18.3.52

Exit 

Product name

Serial number

FW: Firmware version

TX 438.000.000

RX 438.000.000

Ref 438.000.000

Exit 

TX frequency

RX frequency

Reference frequency

Band 1 limits

Lo 403.000.000

Hi 473.000.000

Exit 

The modem can be limited to operate only

on certain frequencies. The range is shown

as LO=Low and HI=High.

Band 2 limits

Lo 403.000.000

Hi 473.000.000

Exit 

The modem can be limited to operate only

on certain frequencies. The range is shown

as LO=Low and HI=High.

Voltage: 9-16V

Port 1:RS232/ON

Exit 

Voltage: Operation Voltage range.

Port1: Port interface and status.

Board: SPL0005g

+EPT

IM:05

Exit 

Board: HW version

IM: Interface module type

Display in Setup Mode

>Radio frequency

Radio settings

Exit  Select

> The cursor indicates active line

Keypad buttons

Select-button

Cancel/Back -button

Up-button

Down-button

SATELLINE-EASy Pro

User Guide v.1.7

6 CONNECTION INTERFACES

6.1 RS-232 interface

RS-232 standard defines the method of serial data transfer between a computer and its peripherals.

The definition includes both the interface type and signal levels. Most computers and peripherals

contain one or more RS-232 type serial ports. The RS-232 standard uses transmission lines, in

which each single signal line level is referenced, to a common ground level. RS-232 has been

designed to be use in serial transfer of data, in situations where the distance between

communicating equipment is less than 15 m. The otherwise useful RS-232 standard is applied in a

multitude of slightly differing ways, (e.g. different pin configurations) and for this reason different

computers and peripherals are not necessarily directly compatible with each other.

6.2 Connectors

The device adopts a high standard waterproof ODU 8-pin data connector. Antenna connector

type is 50 Ohm TNC female.

1. Data connector (8 pin ODU)

 DTE is an abbreviation for Data Terminal Equipment

 I/O column below denotes the direction of the signal

 “IN” is from DTE to the radio modem, “OUT” is from the radio modem to DTE

NAME

I/O

LEVEL

EXPLANATION

RTS

RS-232

Request To Send from DTE

CTS

OUT

RS-232

Clear To Send. This signal indicates

that the radio modem's serial

interface is ready to receive data

from DTE.

SGND

Signal ground

OUT

RS-232

Receive Data to DTE from the radio

modem

RS-232

Transmit Data from DTE to the radio

modem

MODE

(DATA/PROG)

0-16V

<1VDC or connected to ground =

Programming Mode

>3VDC or Not connected = Data

Transfer Mode Note*

Not connected

*) Programming Mode is for changing the settings of the radio modem via Programming menu.

Normally the MODE line is NOT connected i.e. the radio modem is in Data Transfer Mode.

NOTE!

When installing the cables of the serial interface, it is recommended that the operating voltage of

all devices is powered OFF.

SATELLINE-EASy Pro

User Guide v.1.7

2. Power connector

(4 pin ODU MINI-SNAP Style G4 size 1)

Note**) Both PWR pins 1&2 must be connected!

Note***) Both GND and pins 3&4 must be connected!

NAME

EXPLANATION

PWR (+)

Operation Voltage +9 … +16 VDC Note**

PWR (+)

Operation Voltage +9 … +16 VDC Note**

GND

Ground Note***

GND

Ground Note***

SATELLINE-EASy Pro

User Guide v.1.7

7 RF INTERFACE

The SATELLINE-EASy Pro has a single TNC type RF-connector with impedance of 50 Ohm.

When the modem is supplied the frequency is set to “default channel”. The user can change the

frequency afterwards by 70 MHz. Of course, all local regulations set forth by the authorities must

be taken into consideration.

The data speed of the radio interface is set to “default speed”. It can also be set afterwards.

A channel spacing of 25 kHz enables a data speed of 19200 bps and a channel spacing of 12.5

/ 20 kHz enables, correspondingly, a data speed of 9600 bps. The data speed of the radio interface

is always fixed (19200 bps or 9600 bps) irrespective of the data speed of the serial interface. If the

data speeds of the radio interface and the serial interface differ from each other, the radio modem

will buffer the data in transfer temporarily, so no data loss will occur.

7.1 Transmitter

The output power of the transmitter is adjustable. The greatest allowable power depends on limits

set by local authorities, which should not be exceeded under any circumstances. The output power

of the transmitter should be set to the smallest possible level, which still ensures error free

connections under variable conditions. Large output power levels using short connection distances

can, in the worst case, cause disturbances to the overall operation of the system.

Table:Typical output power levels.

A product variant providing 5, 10, 20 and 25 W power levels is available by separate order.

NOTE!

Setting the radio data modem output power level to that which exceeds the regulations set forth by

local authorities is strictly forbidden. The setting and/or using of non-approved power levels may

lead to prosecution. SATEL and its distributors are not responsible for any illegal use of its radio

equipment, and are not responsible in any way of any claims or penalties arising from the operation

of its radio equipment in ways contradictory to local regulations and/or requirements and/or laws.

7.2 Receiver

OUTPUT POWER

dBm

10 W

+40

20 W

+43

25 W

+44

35 W

+45,4

SATELLINE-EASy Pro

User Guide v.1.7

The sensitivity of the receiver depends on the channel spacing of the radio modem (=data speed

of the radio interface) and on the mode of the FEC (error correction) according to the table below:

Channel

spacing

FEC OFF

FEC ON

25 kHz

-108 dBm

-111 dBm

20 kHz

-111 dBm

-114 dBm

12.5 kHz

-111 dBm

-114 dBm

The Signal Threshold Level setting of the receiver determines a level, above which the search for

the actual data transfer signal is active. It is recommended that values given in the table are used.

If the Signal Threshold Level setting is set too low (the CD-LED is ON constantly), it is possible that

the receiver is trying to synchronise itself with noise, in which case, the actual data transmission

might remain unnoticed. Alternatively, weak data transmissions will be rejected, even though they

would be otherwise acceptable.

7.3 Priority RX/TX

SATELLINE-EASy Pro offers a Priority setting, which selects the priority between reception and

transmission. The setting can be changed in Programming Mode. By default, transmission has

higher priority than reception i.e. the default value is Priority TX.

Priority TX means that a terminal device attached to a radio modem decides the timing of the

transmission. The transmitter is immediately switched on when the terminal device starts to output

data. Should reception be in progress, the radio modem will stop it and change to a transmit state.

There is no need to use any handshaking for the control of timing.

Priority RX means that a radio modem tries to receive all data currently in the air. If a terminal

outputs data to be transmitted (or an SL command) it will buffered. The radio modem will wait until

the reception has stopped before transmitting the buffered data. This will result in timing slacks to

the system, but decreases the number of collisions on the air; this is particularly useful in systems

based on multiple random accesses.

To toggle the Priority setting in the programming menu, select:

1) Priority RX / TX

If the Repeater Function has been set on, priority setting is automatically switched to RX mode.

7.4 Forward Error Correction

SATELLINE-EASy Pro

User Guide v.1.7

Forward Error Correction, FEC-function is switched ON (or OFF) by using the Programming Mode.

When activated, the FEC-function will cause the SATELLINE-EASy Pro to automatically add

additional error correction information, which increases the amount of transmitted data by 30 %. It

is used by the receiving radio modem to correct erroneous bits - as long as the ratio of correct and

erroneous bits is reasonable.

Error correction improves the reliability of data transfer via the radio interface especially in

unfavourable conditions. FEC-function should be used when link distances are long and/or if there

are many disturbances in the radio channels used. The use of the FEC-function will, however

decrease the data transfer throughput of data by about 30 %. The list of exact delays when using

FEC-function, are introduced in appendix B.

To switch the FEC-function ON in the Programming Mode, select:

1) Error correction ON

7.5 Error checking

When the error checking is switched on, the radio modem will add a checksum to the transmitted

data. When the data is received, the checksums are verified before data is forwarded to the serial

port. There are two different options for error checking that can be accessed in the Additional setup

menu in the Programming Mode:

2) Error check

6) Full CRC16 check

Error check checks data partially while data is received.

Full CRC16 check function adds two checksum characters at the end of the user data message. At

the reception end the receiver receives first the whole package and if the checksum matches the

data message is forwarded to the serial port. If Full CRC16 check is selected it must be set ON for

all radio modems in the same network. Otherwise the checksum characters appear at the end of

user message on the serial port.

7.6 Dual radio function, separate RX/TX-frequencies

The SATELLINE-EASy Pro can transmit (TX-frequency) and receive (RX-frequency) on separate

frequencies. Separate frequencies can be set within the whole tuning range. The frequencies can

be set in the display menu, in the programming mode or by the Configuration Manager.

NOTE!

All radio modems, which are to communicate with each other, must have the same setting for

FEC (ON or OFF). If the transmitting radio modem and the receiving radio modem has different

settings, data will not be received correctly.

SATELLINE-EASy Pro

User Guide v.1.7

When data flow on the TD line starts the frequency shifts from the receiving channel to the transmit

channel. There is a 40 ms delay caused by the frequency shift before the actual data transmission

sequence starts, and the same time is needed for the return to the receive channel after transmission.

The selected channel spacing, port settings etc. are equal to both frequencies.

The dual radio settings can be adjusted also by the SL commands.

7.7 Free Channel Scan (FCS)

Free Channel Scan (FCS) is designed for one-way transmission between one transmitter and one

or more receivers when there are at least two different radio frequencies available. The transmitter

monitors the noise level of the channels between the transmissions and finds the best transmission

channel. The receivers scan and follow the frequency of that particular transmitter consequently.

The feature is beneficial e.g. for the applications in land surveying or when license free channels

are used and there could be other transmitters using the same channels.

To make the use easier SATEL provides the FCS terminal software for your PC. Using the program

it is easy to configure the radio modems to use the FCS function. There is also a scanning tool for

measuring the power level of the selected radio channels. A more detailed description of FCS

function and FCS terminal software is available from the manufacturer or from the nearest

distributor.

A screen snapshot of the FCS terminal software

SATELLINE-EASy Pro

User Guide v.1.7

7.8 User data whitening

In some cases, if the user data includes a large number of constant characters, additional bit errors

may appear. The use of error correction (FEC) is recommended in such cases. If that is not possible,

the Data whitening feature can be used to improve the reliability of data transfer. The feature is set

on/off in the programming mode.

7.9 Pacific Crest and TRIMTALK compatibility

7.9.1 General

SATELLINE-EASy Pro radio modem supports additional to the original SATEL 3AS data transfer

also:

 Pacific Crest compatible data transfer over the air, if the opponent Pacific Crest modems

operate in the transparent mode/FEC ON/Scrambling ON that is the most common setup

among RTK applications. The other modes are currently not supported.

 TRIMTALK

450s compatible data transfer over the air.

SATELLINE-EASy Pro radio modem provides the following radio compatibility settings:

 Pacific Crest 4-FSK modulation, Transparent mode/FEC ON/Scrambling ON.

 Pacific Crest GMSK modulation, Transparent mode/FEC ON/Scrambling ON.

 TRIMTALK GMSK modulation, Transparent mode

 TrimTalk450s(T) = TrimTalk450s GMSK (Rx fitted to Trimble transmitter)

 Pacific Crest-FST = Pacific Crest Transparent FST (4-FSK), FEC ON/Scrambling ON.

So far, only the transparent mode is implemented, since it is the most commonly used and

recommended by the user manuals. The ARQ based protocols with ACK/NACK schemes are not

preferred in RTK applications that apply one-way communication.

The implementation of Options 1, 2, 3 is based on the reference measurements and the available

public data of the following radio modems manufactured by Pacific Crest Corporation: RFM96W,

PDL HPB, PDL LPB. TRIMTALK is a trademark of Trimble Navigation Ltd.

NOTE!

All radio modems, which are to communicate with each other, must have the same setting for

Data whitening (ON or OFF). If the transmitting radio modem and the receiving radio modem

has different settings, data will not be received correctly.

SATELLINE-EASy Pro

User Guide v.1.7

7.9.2 Configuration in Programming menu

The correct radio compatibility mode can be changed in the Programming mode submenu Radio

settings ->Radio compatibility Mode:

Radio compatibility

-------------------------

1) Satelline-3AS

2) PCC 4-FSK

3) PCC GMSK

4) TRIMTALK GMSK, RX fitted to Pacific Crest transmitters

5) TRIMTALK GMSK, RX fitted to Trimble transmitters

6) PCC-FST

7.9.3 Configuration by using SL commands

“SL@S=” command selects the compatibility mode:

 ”SL@S=0” sets SATELLINE-3AS (default).

 ”SL@S=1” sets PCC-4FSK

 ”SL@S=2” sets PCC-GMSK

 ”SL@S=3” sets TRIMTALK GMSK, RX fitted to Pacific Crest transmitters

 “SL@S=4” sets TRIMTALK GMSK, RX fitted to Trimble transmitters

 “SL@S=5” sets PCC-FST

The modem responds with “OK” message if the requested mode is supported or “ERROR” if the

mode is not allowed.

“SL@S? enquires the active mode. The modem responds with a number:

 “0” if the mode is SATEL 3AS

 “1” if the mode is PCC-4FSK

 “2” if the mode is PCC-GMSK

 “3” if the mode is TRIMTALK GMSK, RX fitted to Pacific Crest transmitters

 “4” if the mode is TRIMTALK GMSK, RX fitted to Trimble transmitters

 “5” if the mode is PCC-FST

7.9.4 Settings

In order to use the Pacific Crest/TRIMTALK modes implemented in SATELLINE modems:

PACIFIC CREST modems must have:

 Protocol Mode =

 Transparent w/EOT Timeout (when using Pacific Crest modulations)

 TrimTalk 450s (when using TRIMTALK GMSK modulation)

 Transparent FST

 Modulation Type depends on the system

 GMSK (default, always selected when using TRIMTALK 450s mode)

 4-Level-FSK

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User Guide v.1.7

 FEC = ON (FEC OFF state supported in PCC Transparent FST protocol implementation)

 Scrambling = ON

 Data Security Code set to = 0 (=not used)

 Local Address= 0…254 (0 by default)

Pacific Crest modem receives messages from SATELLINE modems that have their TX1

address matching the Local Address.

 Remote address=0…255 (255 by default, that is the broadcast address to be received by

all). SATELLINE modems receive the message from a Pacific Crest modem, provided their

RX1 address matches the Remote Address of a Pacific Crest transmitter (or if the message

has the broadcast address 255).

SATELLINE modems must have the following key settings:

 FEC OFF (because the FEC here means SATEL 3AS FEC, not Pacific Crest/TRIMTALK FEC)

 Error check OFF

 Full CRC16 check OFF

 Radio Compatibility (according to selected Pacific Crest protocol mode setting)

 Pacific Crest 4-FSK

 Pacific Crest GMSK

 TRIMTALK GMSK, RX fitted to Pacific Crest transmitters

 TRIMTALK GMSK, RX fitted to Trimble transmitters

 PCC-FST

 Addressing:

 When TX address is selected ON, then TX1 address is used like PDL Remote address

that is the destination address for the transmitted messages.

Default value is 0x00FF (=255) (note the hexadecimal format of the setting)

 When RX Address is selected ON, then RX1 address is used like PDL Local address

Default value is 0x0000 (=0) (note the hexadecimal format of the setting)

Note: Addresses are NOT applicable in TRIMTALK 450s mode so SATELLINE modems

must have their RX/TX addresses OFF with Option3.

The configuration tools and settings are different between SATELLINE and Pacific Crest modems:

 Pacific Crest modems are configured via the serial port using PDLCONF Windows

program that sends binary control messages to the serial port of the modem.

 SATELLINE-EASy Pro radio modems are configured via the serial port using any ordinary

terminal program or SATEL Configuration Manager PC-program.

The table below shows the analogy of settings between Pacific Crest and SATELLINE radio

modems (status in firmware version v3. 46.3).

Pacific Crest setting

Corresponding SATELLINE-EASy Pro setting

Identification: Owner

(not implemented)

Identification: Channel Bandwidth

Channel spacing

Identification: RF Power

TX power

Radio Link: Channel Selection Type

(Manual)

Radio frequency

Radio Link: Current Channel

Radio frequency

Radio Link: Link Rate

The fixed link rates are:

SATELLINE-EASy Pro

User Guide v.1.7

Option 2 & 3: 9600bps@25kHz /

4800bps@12.5kHz

Option 1: 19200bps@12.5kHz /

9600bps@12.5kHz

Radio Link:Modulation Mode

Compatibility->PCC-4FSK

Compatibility->PCC-GMSK

Compatibility->TRIMTALK GMSK

Radio Link:Scrambling

ON by default

Radio Link:Transmit Retries

(not implemented)

Radio Link:TX ACK Timeout

(not implemented)

Radio Link:Csma Monitoring

Priority (RX=ON, TX=OFF) Default: RX

Radio Link: AutoBase/AutoRover

(not implemented)

Radio Link:Digisquelch

Signal threshold

Radio Link:Forward Error Correction

ON by default using Option 1, 2, 3

(Note: SATELLINE-EASy Pro FEC must be OFF!)

Radio Link:Local Address (0 by default)

Primary RX address (RX1) (OFF by default)

Radio Link:Remote Address (255 by

default)

Primary TX address (TX1) (OFF by default)

Serial Interface:Protocol Mode

Radio compatibility:

Options 1 and 2 = Transparent w/EOT

Timeout

Option 3 = TRIMTALK 450s, RX fitted to PCC

Option 4 = TRIMTALK 450s, RX fitted to

Trimble

Option 5 = PCC Transparent FST

Serial Interface:BREAK to Command

(not implemented)

Serial Interface:Modem Enable: Yes

(not applicable)

Serial Interface:Soft Break Enable

(not implemented)

Serial Interface:EOT value (in 0.01s

units)

Pause length (in serial port byte intervals)

Serial Interface:Digipeater

Delay(in0.01s units)

(not implemented)

Serial Interface:Local Node Repeater

(not implemented)

Frequency Table

Radio frequency

Data Security Code (must be 0=not

used)

(not implemented)

Potential conflicts:

- Pacific Crest Local/Remote addresses are supported in the firmware versions starting

from v3. 46.3

- Repeater function is supported only in the firmware versions starting from v3. 46.3

- Error check and Full CRC16 check must be OFF in SATELLINE modem

- FCS (Free Channel Scanning) feature is not supported by Pacific Crest radios

- Message Routing is not supported by Pacific Crest radios

- SATELLINE RX/TX addressing does not use ARQ scheme like Pacific Crest radios.

- Pac Crest Transparent FST protocol supported starting from firmware version 3.57

SATELLINE-EASy Pro

User Guide v.1.7

7.9.5 Repeater function

The implemented Pacific Crest/TRIMTALK modes support also the repeater function. The repeater

function is configured either by using the SL commands:

 ”SL@M=R” (Repeater ON)

 ”SL@M=O” (Repeater OFF)

or by selecting Repeater OFF/ON in the Additional setup-> Repeater programming menu.

Note 1. The repeater modem passes TRIMTALK messages also to its serial port unlike for example

Pacific Crest PDL modems.

Note 2. If error correction is ON (FEC ON) and TRIMTALK mode is activated by using ”SL@S=3”

command, the firmware automatically switches SATEL FEC OFF temporarily, and turns it back at

the mode return.

7.9.6 Support for Local / Remote addresses

If the modem has TX address ON then primary TX address is handled in the same way as Remote

address in Pacific Crest PDL modems. The default value is 0x00FF (255 in decimal format) i.e. the

broadcast address.

If the modem has RX address ON then primary RX address is handled in the same way as PDL

Local address in Pacific Crest PDL modems. The default value is 0x0000 (0 in decimal format).

SATELLINE modem needs to have TX Delay 50ms or more in order to avoid messages from

colliding in case it is to be placed in a Pacific Crest system that uses addressing and

acknowledging scheme.

Note 1. SATELLINE-modems do not support Pacific Crest retransmit/acknowledge scheme.

However, that has no effect in RTK applications because they utilize only broadcast

messages.

7.9.7 Latency

In the PCC Transparent protocol mode (Option 1 and Option 2) the whole message is first read

from the serial port and after that it will be framed and transmitted over the radio.

The end of the message is detected when there is a pause in data coming from the serial port.

The symbol rates for the Pacific Crest 4FSK (Option1) are:

 19200 bps on 25 kHz channel

 9600 bps on 12.5 kHz channel

SATELLINE-EASy Pro

User Guide v.1.7

The symbol rates for the Pacific Crest GMSK (Option2) are:

 9600 bps on 25 kHz channel

 4800 bps on 12.5 kHz channel

The actual raw data rate is appr. 2/3 of the symbol rate.

7.9.7.1 Transmission delays using Pacific Crest 4FSK on 25 kHz channel

The table below presents the typical latency vs. the size of the message. The delays are

measured from the end of transmitted data to the end of received data on the serial interface.

Number of bytes sent

Bps

100

500

1200

77 ms

159 ms

971 ms

4590 ms

4800

48 ms

68 ms

317 ms

1438 ms

9600

43 ms

52 ms

209 ms

912 ms

19200

40 ms

45 ms

154 ms

650 ms

38400

39 ms

41 ms

127 ms

519 ms

7.9.7.2 Transmission delays using Pacific Crest GMSK on 25 kHz channel

The table below presents the typical latency vs. the size of the message. The delays are

measured from the end of transmitted data to the end of received data on the serial interface.

Number of bytes sent

Bps

100

500

1200

86 ms

168 ms

1042 ms

4949 ms

4800

57 ms

77 ms

390 ms

1796 ms

9600

52 ms

62 ms

281 ms

1272 ms

19200

50 ms

55 ms

226 ms

1009 ms

38400

48 ms

51 ms

198 ms

878 ms

SATELLINE-EASy Pro

User Guide v.1.7

8 TRANSPARENT DATA TRANSMISSION

8.1 Serial interface, data format

The SATELLINE-EASy Pro serial interface uses an asynchronous data format. No external

synchronising signal is needed, since necessary timing information is acquired from the start and

stop bits transmitted before and after each data field bits (byte).

The data transfer speed of the serial interfaces can be set to 300, 600, 1200, 2400, 4800, 9600,

19200 or 38400 bps (bits per second). The length of the data field must be 7, 8 or 9 bits. When

using a data field length of 7 or 8 bits, a parity bit may also be used.

Example: With an 8-bit data character length and taking, for example, a decimal value of ”204”,

(which corresponds to a binary value of ”11001100”) and with a start bit value of ”0”, parity bit

set to either “NO” (NONE), ”0” or ”1” and with a stop bit value of ”1”, the possible combinations

are listed in the table below:

If the settings of data speed, character length, parity or the number of stop bits differ between the

radio modem and the terminal, errors will be introduced into the transferred data. The serial port

settings of each individual radio modem in a system can all be different apart from the data length

setting (7, 8 or 9 bits), which must always be the same in each individual radio data modem. In

other words, the serial port used, the data transfer speed, parity and number of stop bits; can be

different in different parts of a same system. This is especially useful where one part of the system

uses an RS-485 serial port and another part uses the RS-232 serial port. In other words, radio

modems may also be utilised as serial port converters in addition to the more common role of

wireless data transfer. The serial port settings can be changed in the Programming Mode.

Serial interface settings of the modem and terminal device connected to it must match.

8.2 Handshake lines

When using the RS-232 serial interface, handshake signals can be used to control data transfer.

Handshake signals are used, for example, by the radio modem to inform the terminal that the radio

channel is busy, and that it cannot initiate transmission. The terminal can also control the radio

modem via RTS-line.

Line

Direction

CTS

To terminal

RTS

To modem

To terminal

A common way of using handshaking signals is to monitor the CTS-line and ignore the others.

Usually the terminal is fast enough to handle the data received by the radio modem, so the use of

RTS-line is not necessary.

SATELLINE-EASy Pro

User Guide v.1.7

Handshaking is not needed if the system protocol is designed to prevent collisions (data contention)

by the use of polling, or if there is little traffic and also if there is no harm from occasional data

contention situations (several radio modems try to transmit at the same time).

8.2.1 CTS-line

The options for CTS-line are:

1) Clear To Send

CTS is active when the radio modem is ready to accept data for new transmission. CTS will shift

into inactive state during data reception and transmission.

2) TX buffer state

CTS will shift into inactive state only if the radio modem’s TX buffer is in danger of overflowing. This

typically happens when the serial interface data transfer speed is greater than the radio interface

transfer speed and the size of transmitted messages is large.

8.2.2 CD-line

The CD handshaking options are not supported by SATELLINE-EASy Pro modems.

The options for CD-line are:

1) RSSI-threshold

CD is active whenever a signal with a level exceeding the level required for reception exists on the

radio channel. It doesn’t make any difference if the signal is an actual data transmission, a signal

of a radio transmitter not belonging to the system, or even an interference signal caused for

example, by a computer or a peripheral device. CD is also active when the radio modem in question

is transmitting.

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User Guide v.1.7

2) Data on channel

CD will switch to active state only after recognition of a valid data transmission. CD will not react

to interference signals.

3) Always ON

CD is always in the active state. This option can be used with terminal equipment, which use the

CD-line as an indicator of an active connection (the radio modem can transmit and receive at any

time).

4) External Antenna Control

8.2.3 RTS-line

The options for RTS-line are:

1) Ignored

RTS-line status is ignored.

2) Flow control

The radio modem transmits data to the terminal device only when the RTS-line is active. Non-active

state of the RTS-line will force the radio modem to buffer the received data. This option is used if

the terminal device is too slow to handle data received from the radio modem.

3) Reception control

RTS-line controls the reception process of the radio modem. An active RTS-line enables reception

(as normal). Non-active RTS-line will interrupt reception process immediately, even if the radio

modem is receiving a data packet. This option is used to force the radio modem into WAIT State

for an immediate channel change.

8.3 Timing and delays during data transmission

When using a radio modem for data transmission, certain delays will be formed through the use of

a radio interface and from the radio modem circuitry itself. These delays exist when the radio

modem switches from Standby Mode to Data Transfer Mode and during reception and transmission

of data. For detailed delay values in each case see Appendix B.

8.3.1 Data buffering in the radio data modem

Whenever the radio modem is in Data Transfer Mode it monitors both the radio channel and the

serial interface. When the terminal device starts data transmission the radio modem switches to

transmission mode. At the beginning of each transmission a synchronisation signal is transmitted

and this signal is detected by another radio modem, which then switches into receive mode. During

the transmission of the synchronisation signal the radio modem buffers data into its memory.

Transmission ends when a pause is detected in the data sent by the terminal device, and after all

SATELLINE-EASy Pro

User Guide v.1.7

buffered data has been transmitted. When the serial interface speed is the same or slower than the

speed of the radio interface, the internal transmit buffer memory cannot overflow. However, when

the serial interface speed exceeds the speed of the radio interface, data will eventually fill transmit

buffer memory. In this instance, it will take a moment after the terminal device has stopped

transmission of data for the radio modem to empty the buffer and before the transmitter switches

off. The maximum size of transmit buffer memory is one kilobyte (1 kB). If the terminal device does

not follow the status of the CTS-line and transmits too much data to the radio modem, the buffer

will be emptied and the transmission is restarted.

In the receive mode, the buffer works principally in the above described way thus evening out

differences in data transfer speeds. If the terminal device transmits data to a radio modem in receive

mode, the data will go into transmit buffer memory. Transmission will start immediately when the

radio channel is available.

8.3.2 Pause length

The modem recognises a pause on the serial line (a pause is defined as a time with no status

changes on the RS-232 interface TD-line). The pause detection is used as criteria for:

 End of radio transmission - When the transmit buffer is empty and a pause is detected, the

modem stops the transmission and will then change the radio to the receive mode.

 SL-command recognition - For a SL-command to be valid, a pause must be detected before

the actual “SL…” character string.

 User address recognition - In order for the start character to be detected, a pause must

precede it in transmission.

Traditionally, in asynchronous data communication, pauses have been used to separate serial

messages from each other. However, the use of non-real-time operating systems (frequently used

on PC-type hardware) often adds random pauses, which may result in the user data splitting into

two or more separate RF transmissions. This may cause problems especially in the systems including

repeater stations.

In order to match the operation of the radio modem to the user data, the Pause length parameter

can be adjusted on the programming menu. It may have any value between 3 and 255 characters.

The default value is 3 characters.

Notes:

 The absolute time of Pause length is depending on the serial port settings. For example, 1

character is ~1.04 ms at 9600 bps / 8N1 (10 bits).

 The maximum absolute time is always 170 ms independent from the value of the Pause

length given in the set-up.

 An increase in the Pause length increases the round trip delay of the radio link

correspondingly; this is due to the fact that the radio channel is occupied for the time of the

Pause length after each transmission (the time it takes to detect a pause). If this is not

acceptable, the TX delay setting may also be useful in special cases.

SATELLINE-EASy Pro

User Guide v.1.7

8.3.3 TX delay

The radio modem can be configured to delay the beginning of a radio transmission by

1...65000ms. This function can be used to prevent packet contention in a system, where all

substations would otherwise answer a poll of a base-station simultaneously. During this delay data

sent to the radio modem is buffered. Although the priority setting is "RX", radio modem is prevented

to change over to receiving mode during the period of the TX delay. If this function is not needed,

the delay time should be set to 0 ms.

8.4 Testing

The radio modem can be switched to the Test Mode, where it will send a test packet on the radio

channel. The test packet is a normal data transmission, which can be used, for example, when

directing antennas during system installation.

When the test packet transmission has been switched on and saved by using the Programming

Mode, the transmitting radio modem needs only a power supply and an antenna.

If the channel spacing of the radio modems is 25 kHz, it is recommended to use 38400 bps as a

serial data speed of the receiving radio modem. In the case of 12.5 / 20 kHz channel spacing the

data speed of 19200 bps is recommended.

There are two Test Modes:

Short data block test

In this test mode the radio modem sends a short test string, which is preceded by a consecutive

number, and it ends to the line feed character. The short data block is repeated continuously after

1 s break.

Short data block test is suitable for running data communication tests. Error-free reception of data

can be monitored using a suitable terminal program.

Example of a short data blocks:

00 This is a testline of SATELLINE-3AS radio modem

Long data block test

Long data block consists of character strings, which are repeated without breaks 50 s time period.

After 10 s break the test transmission is started again.

Long block data test can be used for measuring Tx output power, standing wave ratio (SWR) of the

antenna system or received signal strength at Rx stations. Using Long Block Test requires running

the modem in radio compatibility mode SATELLINE-3AS.

Example of a long data blocks:

00 This is a long testline of SATELLINE-3AS radio modem

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User Guide v.1.7

The strength of the received signal can be monitored using the LCD-display of the receiving radio

modem.

NOTE 1! Green TD led indicates active test mode.

NOTE 2! Normal data transfer is not available while the Test mode is active. Remember to

switch it OFF before starting the normal data transfer.

NOTE 3! Message Routing and FCS mode must be disabled prior to set ON the Test mode.

SATELLINE-EASy Pro

User Guide v.1.7

9 SETTINGS

The configuration of SATELLINE-EASy Pro can be easily changed. Simply by connecting MODE pin

(see chapter 6.2) of the data connector to ground (GND) the radio modem will switch into

Programming Mode. Serial PORT 1 is used whenever the radio modem is in the Programming

Mode. The serial port settings are 9600 bps, N, 8,1 (data transfer speed 9600 bps, none parity,

character length 8 bits and one (1) stop bit).

SATELLINE-EASy Pro contains push buttons and a LCD-display, which can be used to modify

configuration settings without the help of an external terminal device. The radio modem will switch

into Programming Mode by pressing the ”SETUP” (  )button.

9.1 Programming Mode

The settings of SATELLINE-EASy Pro are fully configurable in Programming Mode by using following

setup:

- Satel Configuration Manager software, or alternatively a terminal program (SaTerm,

HyperTerminal etc.)

- Power cable (C-P-35W)

- Data Cable (NARS-ST for 8-pin connector)

- Interface adapter (NARS-1F includes a mechanical switch for easy changing between the

Programing mode and Data Transfer mode)

The radio modem will shift into the Programming Mode by connecting MODE pin (see chapter 6.2)

of the data connector to ground (GND). When using the NARS-1F, this can be accomplished by

moving the slide switch towards D-9 connector.

In the Programming Mode, the radio modem is forced to use serial PORT1, with settings 9600 bps,

N, 8,1 (data transfer speed 9600 bps, none parity, 8 data bits and 1 stop bit).

9.2 Changing parameters using a terminal device

9.2.1 Changing the settings

 Connect cables (RS-232 cable to PC COM-port, power supply cable to power supply).

 Switch on the PC and start the terminal program.

 Set the serial port parameters of the program as follows: 9600 bits/s, 8 data bits, none

parity, 1 stop bit, which is always the default in Programming Mode).

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User Guide v.1.7

 Connect MODE-pin to ground (if using the NARS-1F adapter, slide the switch downwards),

the radio modem shifts now into the Programming Mode. The screen should look similar to

the one shown in the picture below.

 Make desired changes to the settings with SaTerm.

 Save changes by pressing ”E” in the main menu. If you don’t want to save changes, press

”Q”.

 Disconnect MODE-pin from ground (if using the NARS-1F adapter, slide the switch

upwards), the radio modem should now return to the Data Transfer Mode.

***** SATELLINE *****

FW: 06.18.x.xx / HW: SPL0005d+EPT / PV: 05.00 / IM: 05 / S/N: YYMMxxxx

-----------------------------------------------------------------------------------

Current settings

----------------

1) Radio frequency TX: 438.0000 MHz / RX: 438.0000 MHz /

Ref freq: 438.0000 MHz / Spacing 25 kHz

2) Radio settings Tx power 35W / Signal threshold -115 dBm / FCS OFF /

TX start delay 0 ms / Compatibility Satel 3AS / Call sign OFF

3) Addressing RX address OFF / TX address OFF /

RX address to RS port OFF / TX address autoswitch OFF

4) Serial port 1 ON / 9600 bit/s / 8 bit data / None parity /

1 stop bit

5) Serial port 2 OFF / 9600 bit/s / 8 bit data / None parity /

1 stop bit (TTL)

6) Handshaking CTS Clear to send / CD RSSI-threshold /

RTS Ignored / Pause length 3 bytes

7) Additional setup Error correction OFF / Error check OFF / Repeater OFF /

SL-commands ON / Priority TX / Full CRC16 check OFF /

User Data whitening OFF

8) Routing OFF

9) Tests OFF

A) Restore factory settings

B) INFO

E) EXIT and save settings

Q) QUIT without saving

Enter selection >

9.2.2 Restoring factory settings

The settings that the modem was delivered from the factory are called “factory settings”.

“Restore factory settings” selection is achieved by selecting “A” from the menu list.

Factory settings are restored by selecting ”Y” (YES). By pressing “N” (NO) or any other button no

changes is done and current settings will remain active. The modem will ask this question twice to

make ensure that this is a valid command.

Enter selection >A

SATELLINE-EASy Pro

User Guide v.1.7

Restore factory settings

------------------------

Do you want to restore factory settings? (Y/N)>

PORT 1 of the radio modem is connected to a terminal device or a PC, which is in terminal

emulation state. (This can be accomplished by using a suitable program such as the SaTerm

program or the Windows™ Hyper Terminal program). Check the wiring of the serial port connection

cable. Terminal device serial port settings must be set to 9600 bps, N, 8, 1 (data transfer speed

9600 bps, none parity, data length 8 bits and one (1) stop bit). MODE-pin (see chapter 6.2) is then

connected to ground (GND). Following this the radio modem will transmit the following message

to the terminal (certain configuration settings might differ from the ones shown):

***** SATELLINE *****

FW: 06.18.x.xx / HW: SPL0005d+EPT / PV: 05.00 / IM: 05 / S/N: YYMMxxxx

-----------------------------------------------------------------------------------

Current settings

----------------

1) Radio frequency TX: 438.0000 MHz / RX: 438.0000 MHz /

Ref freq: 438.0000 MHz / Spacing 25 kHz

2) Radio settings Tx power 35W / Signal threshold -115 dBm / FCS OFF /

TX start delay 0 ms / Compatibility Satel 3AS / Call sign OFF

3) Addressing RX address OFF / TX address OFF /

RX address to RS port OFF / TX address autoswitch OFF

4) Serial port 1 ON / 9600 bit/s / 8 bit data / None parity /

1 stop bit

5) Serial port 2 OFF / 9600 bit/s / 8 bit data / None parity /

1 stop bit (TTL)

6) Handshaking CTS Clear to send / CD RSSI-threshold /

RTS Ignored / Pause length 3 bytes

7) Additional setup Error correction OFF / Error check OFF / Repeater OFF /

SL-commands ON / Priority TX / Full CRC16 check OFF /

User Data whitening OFF

8) Routing OFF

9) Tests OFF

A) Restore factory settings

B) INFO

E) EXIT and save settings

Q) QUIT without saving

Enter selection >

9.2.3 Changing frequency (active radio channel frequency)

The frequency of the active radio channel, TX or RX or both at the same time, can be changed by

selecting main menu selection ”1”. In the example below the TX frequency is changed

from 468.52500 MHz to 468.50000 MHz.

Enter selection >1

Radio frequency setup

---------------------

1) Radio frequency

2) Channel spacing

Enter selection or ESC to previous menu >1

SATELLINE-EASy Pro

User Guide v.1.7

Radio TX and RX frequency setup

-------------------------------

1) TX and RX frequency

2) TX frequency 468.52500 MHz

3) RX frequency 437.00000 MHz

4) Reference frequency 438.00000 MHz

Enter selection or ESC to previous menu >2

Radio TX frequency setup

------------------------

TX frequency 468.52500 MHz

RX frequency 437.00000 MHz

Lower limit band 1 403.00000 MHz

Upper limit band 1 473.00000 MHz

Lower limit band 2 403.00000 MHz

Upper limit band 2 473.00000 MHz

Channel spacing 25 kHz

Enter new TX frequency (MHz) or ESC to cancel >468.500 Enter

Radio TX frequency setup

------------------------

TX frequency 468.50000 MHz

RX frequency 437.00000 MHz

Lower limit band 1 403.00000 MHz

Upper limit band 1 473.00000 MHz

Lower limit band 2 403.00000 MHz

Upper limit band 2 473.00000 MHz

Channel spacing 25 kHz

Enter new TX frequency (MHz) or ESC to cancel >

To get back to the main menu press ESC, ESC, ESC and then E for Exiting and saving.

Maximum adjustment range of the active radio channel frequency is in between “Lower limit

band1/2” and “Upper limit band1/2”, (default usable range is the full 70 MHz band). Because of

possible deviations in each country and/or region concerning the authorised use of the frequency

spectrum local authorities may limit this adjustment range. The frequency band limiting values are

factory set and the user cannot change them.

9.2.4 Changing reference frequency

The Reference frequency (also known as “Center frequency”) defines the starting point, which is

used by the specific SL-command to calculate the channels above or below the Reference frequency.

The calculation is based on the selected channel spacing. The Reference frequency must be in

between the upper/lower band limits. Number 1 is pressed in the Main menu.

NOTE !

Adjustment of the active radio channel of the radio modem to frequencies other than those

allocated and/or allowed by local authorities is strictly forbidden. Use or intended use of

forbidden frequencies may lead to prosecution and penalties. SATEL Oy is not responsible for

any illegal use practiced with any devices manufactured and/or sold by SATEL Oy and is not

liable to pay any damages or compensation caused by such illegal use.

SATELLINE-EASy Pro

User Guide v.1.7

Enter selection >1

Radio frequency setup

---------------------

1) Radio frequency

2) Channel spacing

Enter selection or ESC to previous menu >1

Radio TX and RX frequency setup

-------------------------------

1) TX and RX frequency

2) TX frequency 468.50000 MHz

3) RX frequency 437.00000 MHz

4) Reference frequency 438.00000 MHz

Enter selection or ESC to previous menu >4

Radio reference frequency setup

-------------------------------

Reference frequency 438.00000 MHz

Lower limit band 1 403.00000 MHz

Upper limit band 1 473.00000 MHz

Lower limit band 2 403.00000 MHz

Upper limit band 2 473.00000 MHz

Enter new frequency (MHz) or ESC to cancel >460.000 Enter

Reference frequency 460.00000 MHz

Lower limit band 1 403.00000 MHz

Upper limit band 1 473.00000 MHz

Lower limit band 2 403.00000 MHz

Upper limit band 2 473.00000 MHz

Enter new frequency (MHz) or ESC to cancel >

To get back to the main menu press ESC, ESC, ESC and then E for Exiting and saving.

9.2.5 Changing channel spacing

The module can be set to different channel spacing. The values are: 12.5, 20 and 25 kHz.

Number 1 is pressed in the Main menu.

Radio frequency setup

---------------------

1) Radio frequency

2) Channel spacing 25 kHz

Enter selection or ESC to previous menu >2

Channel spacing

---------------

1) 12,5 kHz

2) 20 kHz

3) 25 kHz

Enter selection or ESC to previous menu > 1

Channel spacing

---------------

1) 12,5 kHz

2) 20 kHz

SATELLINE-EASy Pro

User Guide v.1.7

3) 25 kHz

Enter selection or ESC to previous menu > ESC

Radio frequency setup

---------------------

1) Radio frequency

2) Channel spacing 12,5 kHz

To get back to the main menu press ESC and then E for Exiting and saving.

9.2.6 Changing radio settings

Radio settings which consist of transmitter output power and receiver sensitivity can be configured

by selecting main menu selection ”2”. In the following example both the transmitter output power

(35 W -> 20W) and the receiver sensitivity (-110 dBm->–90 dBm) are changed.

Number 2 is pressed in the Main menu.

Enter selection >2

Radio setup

-----------

1) TX power 35 W

2) Signal threshold -115 dBm

3) TX start delay 0ms

4) Free Channel Scan RX Slave / OFF

5) Radio compatibility Satel 3AS

6) Call sign OFF

Enter selection or ESC to previous menu >1

TX power setup

--------------

1) 10W

2) 20W

3) 25W

4) 35W

Enter selection or ESC to previous menu >2

Radio setup

-----------

1) TX power 20W

2) Signal threshold -115 dBm

3) TX start delay 0ms

4) Free Channel Scan RX Slave / OFF

5) Radio compatibility Satel 3AS

6) Call sign OFF

Enter selection or ESC to previous menu >2

Signal threshold setup

--------------------------

Signal threshold -115 dBm

Enter new value (80 - 118) or ESC to previous menu > -110 Enter

Signal threshold setup

--------------------------

Signal threshold -110 dBm

Enter new value (80 - 118) or ESC to previous menu > -

To get back to the main menu press ESC (and then E for Exiting and saving).

The maximum useable sensitivity of the receiver is determined by the channel spacing (=radio

interface data transfer speed) and also by error correction (utilised or not).

SATELLINE-EASy Pro

User Guide v.1.7

In environments with high levels of interference, and when connection distances are short, it is often

beneficial to use a ”Signal threshold level” value, which is approximately 10 – 20 dBm above the

maximum sensitivity level. This will prevent unnecessary receive attempts caused by noise.

9.2.7 Free channel scan

Free channel scan settings can be set by choosing the 4) Free channel scan from the menu. The

options are as follows:

Enter selection >2

Radio setup

-----------

1) TX power 20W

2) Signal threshold -110 dBm

3) TX start delay 0ms

4) Free Channel Scan RX Slave / OFF

5) Radio compatibility Satel 3AS

6) Call sign OFF

Enter selection or ESC to previous menu >4

Free Channel Scan settings

----------------------------

1) Free Channel Scan mode OFF

2) Type of modem RX Slave

3) FCS Net ID 0000

4) RX listen timeout 500 ms

5) Channel hop threshold -110 dBm

6) Beacon interval 1000 ms

7) Beacon disable timeout 0

8) Add new frequency to list

9) Show free scan frequency list

A) Clear frequency list

Enter selection or ESC to previous menu >

The hardware information can be seen in the main menu

***** SATELLINE *****

NOTE !

The setting of the transmitter output power of the radio modem to levels in contradiction with

transmitter power levels regulated by local or other governmental authorities is strictly forbidden.

Use or intended use of forbidden transmitter power levels may lead to prosecution and penalties.

SATEL is not responsible for any illegal use practised with any devices manufactured and/or sold

by SATEL and is not liable to pay any damages or compensation caused by such illegal use.

SATELLINE-EASy Pro

User Guide v.1.7

FW: 06.18.x.xx / HW: SPL0005d+EPT / PV: 05.00 / IM: 05 / S/N: 30032010

----------------------------------------------------------------------------

FW= Firmware HW=Hardware version PV=Product variant version IM=Interface module (Voltage

range and interface type) S/N= serial number.

9.2.8 Changing addressing settings (primary and secondary RX- and TX-

addresses)

Addressing can be switched ON or OFF with the help of main menu selection ”3”. In the

following example a primary RX-address (receiver address) is switched ON and the corresponding

hexadecimal address value is modified (”0000”  ”0020”). The current values of the parameters

are displayed and changed in toggle-type fashion by selecting the appropriate parameter

selection number from the list displayed. The next menu level will then enable the modification of

the values (within allowed limits). Modification of all other primary and secondary transmitter and

receiver addresses is done in similar way.

Number 3 is pressed in the Main menu.

Addressing setup

Toggle ON/OFF values. Current value shown.

------------------------------------------

1) RX address OFF

2) TX address OFF

3) RX address to RS port OFF

4) Change primary RX address

5) Change primary TX address

6) Change secondary RX address

7) Change secondary TX address

8) TX address autoswitch OFF

Enter selection or ESC to previous menu >1

Addressing setup

Toggle ON/OFF values. Current value shown.

------------------------------------------

1) RX address ON 0000/0000

2) TX address OFF

3) RX address to RS port OFF

4) Change primary RX address

5) Change primary TX address

6) Change secondary RX address

7) Change secondary TX address

8) TX address autoswitch OFF

Enter selection or ESC to previous menu >4

RX address setup

----------------

RX address ON 0000/0000

Enter new address (HEX) or ESC to previous menu >0020 Enter

RX address setup

----------------

RX address ON 0020/0000

Enter new address (HEX) or ESC to previous menu >

The new value is displayed in the menu.

To get back to the main menu press ESC (and then E for Exiting and saving).

SATELLINE-EASy Pro

User Guide v.1.7

The address is given in hexadecimal format with four digits and the number of different addresses

is thus over 65 000.

9.2.9 Changing serial port settings (Port 1)

The settings of serial PORT 1 can be modified by selecting main menu selection ”4”. In the following

example, the data transfer speed of PORT 1 is modified (9600 bit/s ->19200 bit/s), followed by

the modification of the number of data bits (8  7), then the number of parity bits (NONE ->

EVEN) and finally the number of stop bits is changed (1  2).

Number 4 is pressed in the Main menu.

Serial port 1

Settings

--------------

1) Port status ON

2) Data speed 9600 bit/s

3) Data bits 8 bit data

4) Parity bits None parity

5) Stop bits 1 stop bit

Enter selection or ESC to previous menu >2

Serial port 1 data speed

------------------------

1) 300 bit/s

2) 600 bit/s

3) 1200 bit/s

4) 2400 bit/s

5) 4800 bit/s

6) 9600 bit/s

7) 19200 bit/s

8) 38400 bit/s

Enter selection or ESC to previous menu >7

Serial port 1

Settings

--------------

1) Port status ON

2) Data speed 19200 bit/s

3) Data bits 8 bit data

4) Parity bits None parity

5) Stop bits 1 stop bit

Enter selection or ESC to previous menu >3

Serial port 1 data bits

-----------------------

1) 7 bit data

2) 8 bit data

3) 9 bit data

Enter selection or ESC to previous menu >1

Serial port 1

NOTE!

The radio modem has one serial port, PORT 1 which complies with the RS-232 standard. PORT

2 is not in use and the settings of serial PORT 2 cannot be changed.

SATELLINE-EASy Pro

User Guide v.1.7

Settings

--------------

1) Port status ON

2) Data speed 19200 bit/s

3) Data bits 7 bit data

4) Parity bits None parity

5) Stop bits 1 stop bit

Enter selection or ESC to previous menu >4

Serial port 1 parity bits

-------------------------

1) None parity

2) Even Parity

3) Odd Parity

Enter selection or ESC to previous menu >2

Serial port 1

Settings

--------------

1) Port status ON

2) Data speed 19200 bit/s

3) Data bits 7 bit data

4) Parity bits Even parity

5) Stop bits 1 stop bit

Enter selection or ESC to previous menu >5

Serial port 1 stop bits

-----------------------

1) 1 stop bit

2) 2 stop bits

Enter selection or ESC to previous menu >2

Serial port 1

Settings

--------------

1) Port status ON

2) Data speed 19200 bit/s

3) Data bits 7 bit data

4) Parity bits Even parity

5) Stop bits 2 stop bits

Enter selection or ESC to previous menu >

To get back to the main menu press ESC (and then E for Exiting and saving).

SATELLINE-EASy Pro

User Guide v.1.7

Now all of the modifications of the example have been performed and the new values are displayed:

***** SATELLINE *****

FW: 06.18.x.xx / HW: SPL0005d+EPT / PV: 05.00 / IM: 05 / S/N: YYMMxxxx

-------------------------------------------------------------------------------

Current settings

----------------

1) Radio frequency TX: 468.50000 MHz / RX: 437.00000 MHz /

Ref freq: 460.00000 MHz / Spacing 12.5kHz

2) Radio settings TX power 35W / Signal threshold -110 dBm / FCS OFF /

TX start delay 0ms / Compatibility Satel 3AS / Call sign OFF

3) Addressing RX address ON 0020/0000 / TX address OFF /

RX address to RS port OFF / TX address autoswitch OFF

4) Serial port 1 ON / 19200 bit/s / 7 bit data / Even parity /

2 stop bit

5) Serial port 2 OFF / 9600 bit/s / 8 bit data / None parity /

1 stop bit (TTL)

6) Handshaking CTS Clear to send / CD RSSI-threshold /

RTS Ignored / Pause length 3 bytes

7) Additional setup Error correction OFF / Error check OFF / Repeater OFF /

SL-commands ON / Priority TX / Full CRC16 check OFF /

User Data whitening OFF

8) Routing OFF

9) Tests OFF

A) Restore factory settings

B) Info

E) EXIT and save settings

Q) QUIT without saving

Enter selection >

Press E for Exiting and saving.

The settings of the serial port must be modified to correspond with the settings of the terminal device

that is to be connected to the radio modem.

9.2.10 Modification of handshaking functions

Handshaking related configuration settings can be modified by selecting the options from the main

menu ”6”. In the following example characteristics of the CTS-line (CLEAR TO SEND  TX BUFFER

STATE), CD-line (RSSI-THRESHOLD  DATA ON CHANNEL) and RTS-line (IGNORED

 FLOW CONTROL) are changed.

NOTE!

It should be noted that switching the radio modem into Programming Mode by connecting the

MODE-pin (see chapter 6.2) to ground (GND) will change the settings of serial PORT 1 to

”9600,8,N,1” automatically irrespective of the serial PORT 1 DATA-mode settings.

SATELLINE-EASy Pro

User Guide v.1.7

Number 6 is pressed in the Main menu.

Serial ports 1 and 2 Handshaking

--------------------------------

1) CTS line property Clear to send

2) CD line property RSSI-threshold

3) RTS line property Ignored

4) Pause length 3 bytes

Enter selection or ESC to previous menu >1

Select CTS line action property

-------------------------------

1) Clear to send

2) TX buffer state

Enter selection or ESC to previous menu >2

Serial ports 1 and 2 Handshaking

--------------------------------

1) CTS line property TX buffer state

2) CD line property RSSI-threshold

3) RTS line property Ignored

4) Pause length 3 bytes

Enter selection or ESC to previous menu >2

Select CD line action property

------------------------------

1) RSSI-threshold

2) Data on channel

3) Always ON

Enter selection or ESC to previous menu >2

Serial ports 1 and 2 Handshaking

--------------------------------

1) CTS line property TX buffer state

2) CD line property Data on channel

3) RTS line property Ignored

4) Pause length 3 bytes

Enter selection or ESC to previous menu >3

Select RTS line action property

-------------------------------

1) Ignored

2) Flow control

3) Reception Control

Enter selection or ESC to previous menu >2

Serial ports 1 and 2 Handshaking

--------------------------------

1) CTS line property TX buffer state

2) CD line property Data on channel

3) RTS line property Flow control

4) Pause length 3 bytes

Enter selection or ESC to previous menu >

To get back to the main menu press ESC (and then E for Exiting and saving).

SATELLINE-EASy Pro

User Guide v.1.7

Now all of the modifications of the example have been performed and the new values are displayed

on the menu as follows:

***** SATELLINE *****

FW: 06.18.x.xx / HW: SPL0005d+EPT / PV: 05.00 / IM: 05 / /N: YYMMxxxx

-------------------------------------------------------------------------------

Current settings

----------------

1) Radio frequency TX: 438.00000 MHz / RX: 450.00000 MHz /

Ref freq: 438.00000 MHz / Spacing 20kHz

2) Radio settings TX power 35W / Signal threshold -118 dBm / FCS OFF /

TX start delay 0ms / Compatibility Satel 3AS / Call sign OFF

3) Addressing RX address OFF / TX address OFF /

RX address to RS port OFF / TX address autoswitch OFF

4) Serial port 1 ON / 9600 bit/s / 8 bit data / None parity /

1 stop bit

5) Serial port 2 OFF / 9600 bit/s / 8 bit data / None parity /

1 stop bit ( TTL )

6) Handshaking CTS TX buffer state / CD Data on channel /

RTS Flow control / Pause length 3 bytes

7) Additional setup Error correction OFF / Error check OFF / Repeater OFF /

SL-commands ON / Priority TX / Full CRC16 check OFF /

User Data whitening OFF

8) Routing OFF

9) Tests OFF

A) Restore factory settings

B) Info

E) EXIT and save settings

Q) QUIT without saving

Enter selection >

9.2.11 Special functions

Special functions are modified by selecting from the main menu selection ”7”. The current values

of the parameters are displayed and can be modified in toggle-type fashion by choosing the

appropriate parameter selection number from the list displayed. The next menu level will then

enable the modification of the values (within allowed limits).

Number 7 is pressed in the Main menu.

Additional setup

Toggle ON/OFF values. Current value shown.

------------------------------------------

1) Error correction OFF

2) Error check OFF

3) Repeater OFF

4) SL-commands ON

5) Priority TX

6) Full CRC16 check OFF

7) User Data whiten OFF

Enter selection or ESC to previous menu >

SATELLINE-EASy Pro

User Guide v.1.7

9.2.12 Modification of routing

Configuration settings defining routing can be changed by selecting main menu selection ”8”.

Enter selection >8

Routing Setup

-------------

1) Mode OFF

2) Protocol

3) Address

4) Net id

5) Route list

6) Route add

7) Route delete

8) Delete all routes

Enter selection or ESC to previous menu >1

Routing mode setup

------------------

1) Disabled

2) Source routing

3) Virtual routing

Enter selection or ESC to previous menu >3

Routing Setup

-------------

1) Mode Virtual routing

2) Protocol Userdefined 01 01

3) Address 0009

4) Net id testnet

5) Route list

6) Route add

7) Route delete

8) Delete all routes

Enter selection or ESC to previous menu >2

Protocol set-up

--------------

1. Userdefined

2. IEC60870-5-101

3. RP570/571

Enter selection or ESC to previous menu >1

SATELLINE-EASy Pro

User Guide v.1.7

User defined address position setup

-----------------------------------

1) Start position 01

2) Length 01

Enter selection or ESC to previous menu >1

User defined address start position setup

-----------------------------------------

Current value: 01

Enter new start position (0-16) >02

User defined address start position setup

-----------------------------------------

Current value: 02

Enter new start position (0-16) >ESC

User defined address position setup

-----------------------------------

1) Start position 02

2) Length 01

Enter selection or ESC to previous menu >2

User defined address length setup

---------------------------------

Current value: 01

Enter new length (1-4) >3

User defined address length setup

---------------------------------

Current value: 03

Enter new length (1-4) >ESC

User defined address position setup

-----------------------------------

1) Start position 02

2) Length 03

Enter selection or ESC to previous menu >ESC

The display has now returned to the main menu of the routing settings and it can be seen that the

routing mode (Virtual Mode Routing) as well as the protocol (USERDEFINED 02 03) have been

modified.

SATELLINE-EASy Pro

User Guide v.1.7

Following this, a new address will be modified (”0009”  ”0002”) and a new Network ID is defined

(”testnet”  ”newname”):

Routing Setup

-------------

1) Mode Virtual routing

2) Protocol Userdefined 02 03

3) Address 0009

4) Net id testnet

5) Route list

6) Route add

7) Route delete

8) Delete all routes

Enter selection or ESC to previous menu >3

Address setup

-------------

Current routing address 0009

Enter new address (HEX) or ESC to previous menu >0002

Address setup

-------------

Current routing address 0002

Enter new address (HEX) or ESC to previous menu >ESC

Routing Setup

-------------

1) Mode Virtual routing

2) Protocol Userdefined 01 01

3) Address 0002

4) Net id testnet

5) Route list

6) Route add

7) Route delete

8) Delete all routes

Enter selection or ESC to previous menu >4

Net id

------

Net id current value: testnet

Enter net id (8 char) or ESC to previous menu >newname

Net id

------

Net id current value: newname

Enter net id (8 char) or ESC to previous menu >ESC

SATELLINE-EASy Pro

User Guide v.1.7

Routing Setup

-------------

1) Mode Virtual routing

2) Protocol Userdefined 01 01

3) Address 0002

4) Net id newname

5) Route list

6) Route add

7) Route delete

8) Delete all routes

Enter selection or ESC to previous menu >ESC

Selection ”5” will produce a list of the routes:

Route list

----------

xxx

Press any key to return >

Selection ”6” enables the addition of a route:

Route add

---------

Enter destination address (HEX) >

Selection ”7” enables the removal of a route:

Route delete

------------

Enter destination address (HEX) >

Selection ”8” enables erasure of ALL routing information simultaneously. The menu will then display

the following text:

Routing Set-up

-------------

1) Mode Virtual routing

2) Protocol Userdefined 02 03

3) Address 0009

4) Net id testnet

5) Route list

6) Route add

7) Route delete

8) Delete all routes

Enter selection or ESC to previous menu >8

Do you really want to delete all routes?

Press Y key to delete or ESC to cancel >

SATELLINE-EASy Pro

User Guide v.1.7

9.2.13 Activating tests

Tests can be activated by selecting main menu selection ”9”. Tests are activated by setting the status

of the desired test to ”ON” and will remain active until the value of the selection in the menu is

returned to the value ”OFF”.

9.2.14 Restoring factory settings

The settings that the modem was delivered from the factory are called “factory settings”.

Selecting main menu selection “A” can restore factory settings.

Enter selection >A

Restore factory settings

------------------------

Do you want to restore factory settings? (Y/N)>

Restoring is confirmed by pressing ”Y” (Y=YES) or cancelled by pressing ”N” (N=NO). Also the

pressing of ”ESC” button at any point in the procedure will return the display to the previous (next

higher) menu level without restoring factory settings.

9.2.15 Info

The Info display shows all the functionality of the modem.

Device = Modem type. Serial number= yyyymmddxxx. FW version= xx.xx.xx.xx.

Board version= Main board version SPLxxxxn. Module version= Voltage range, Port 2

interface. Tuning range= Total tuning range.

Enter selection >b

Info menu

---------------------------------------

Device: SATELLINE EASy-35W

Serial number: xxxxxxxxxxxxx

FW version: 06.18.x.xx

Board version: SPL0005d+EPT

Module version: Voltage: 9-16V

Tuning range: 403.00000 - 473.00000 MHz

Press any key to return >

Enter selection >9

Tests setup

-----------

1) Short block test OFF

2) Long block test OFF

NOTE! Message Routing and FCS mode must be disabled in prior to set ON the Test mode.

SATELLINE-EASy Pro

User Guide v.1.7

9.2.16 Saving modified settings into the permanent memory

All modified settings must be saved into the permanent non-volatile memory of the radio modem

before switching out of the Programming Mode. Selecting the main menu selection “E”

automatically saves the settings:

Enter selection >E

Configuration saved!

Please turn off program mode switch!

9.2.17 Updating Firmware

The Firmware of SATELLINE-EASy Pro is stored in a flash memory. It can be updated by SaTerm

terminal program or SATEL Configuration Manager.

9.3 Changing parameters using the LCD-display

SATELLINE-EASy Pro contains an LCD-display that shows the valid functions and allows modification

of the settings.

On standby mode the LCD-display will shortly display the basic information, which is revolving

automatically in 5 seconds. The following settings are shown: TX and RX frequencies, Compatibility,

TX Power and Channel Spacing, Reference frequency and Com Port 1.

The radio modems´ configuration settings can be done without the use of an external terminal

device. This is especially convenient when modifying or re-installing radio modems in the field. The

radio modem is switched into Programming Mode by pressing the ”SET-UP-button (  ).

The main menu is used to select the desired submenus, and the modifications are performed using

these submenus. It is possible to jump back at any time to the previous (higher) level in the menu

hierarchy by just pressing the ”CANCEL”-button (or in some cases the ”BACK”-button). Pressing the

orbutton modifies parameters with numerical values consisting of digits. Use until the said digit

(with the cursor blinking under it) has reached the desired value. In the case of numerical values

the ”NEXT-button is used to move on to the next digit in the numerical value and then the above

described process is used to modify it. The process is repeated until all digits in the value have been

NOTE! To switch the radio modem back into Data Transfer Mode the MODE-pin of the must

be disconnected from ground (GND). See chapter 6.2

SATELLINE-EASy Pro

User Guide v.1.7

edited. Toggle-type parameters (typically with ON/OFF choices modifications have to be confirmed

by pressing the ”SELECT”- or ”SET”-button.

This is the display in Data Transfer

Mode.

TX and RX frequencies are set to

468.525.000 MHz.

Compatibility is Satel 3AS.

TX power is 35W.

Channel spacing is 25 kHz.

Reference frequency is 438.000.000

MHz. Serial PORT 1 settings are

19200, N, 8, 1.

Signal strength info is displayed on the

upper left-hand corner:

- RSSI value Y (here -102 dBm)

of the last received message or

- current noise level e.g.

Battery level respectively on the upper

right corner.

After pressing the ”SET-UP-button the

display will show the main menu, which

is a list of modifiable parameters.

Pressing the ▲▼ buttons the cursor

moves upwards and downwards. When

the cursor is placed beside the

desired selection, entry into sub-menu

is done by pressing the SELECT-

button.

▲▼

9.3.1 Changing frequency (frequency of the active TX/RX radio channel)

Press ▲ or ▼ until the cursor

> points to “Radio frequency”

–selection and press ”Select”

to move onto the next

submenu.

▲▼

5 sec

SATELLINE-EASy Pro

User Guide v.1.7

TX & RX freq: changes both

TX and RX frequencies at the

same time.

TX freq: changes only the TX

frequency.

RX freq: changes only the RX

frequency.

Press ▲ or ▼ until the cursor

> points at the correct

selection and Press

”CHANGE” if the frequency is

to be modified.

▲▼

TX & RX freq selected

The frequency Band 1limits will be shown. Press 

and to get the Band 2 limits. Press “Set” to activate

the change frequency window.

▼

The cursor > will now blink under the first digit of

the value indicating the (this first digit cannot be

edited). To move onto the next digit, press ”Next”.

Press ▲ or ▼ until the said digit has reached the

desired value. Press ”NEXT” to move on to the next

digit and repeat the above-described steps.

▲▼

Previous steps are repeated four (4) times.

Press ▲▼, until the last changeable digit has the

desired value and confirm changes by pressing

”Set”. he following information will be displayed

for a few seconds.

Ch accepted

468.52500 MHz

The radio modem will acknowledge changes if they

are between band limits. The display will return

automatically to display the main menu (if the

entered frequency is not acceptable an error

message will be displayed).

▼

SATELLINE-EASy Pro

User Guide v.1.7

9.3.2 Checking / changing the reference frequency

Press SETUP, set cursor at the Radio frequency and

press Select.

▲▼

Press ▲ or ▼ until the cursor points at “Reference

freq” selection and press ”Change”.

▼

Band 1 limits are shown.

By pressing ▼ again the display will show Band 2

limits (these values cannot be changed).

▲▼

To activate Reference frequency window, press Set.

▲▼

SATELLINE-EASy Pro

User Guide v.1.7

The display will now show

New Ref freq

438.00000 MHz

The cursor > will now blink under the first digit of

the value indicating the (this first digit cannot be

edited). To move onto the next digit, press ”Next”.

Previous steps are repeated four (4) times.

Press ▲ or ▼, until the last changeable digit has

the desired value and confirm changes by pressing

”Set”. he following information will be displayed

for a few seconds.

Ch accepted

468.52500 MHz

The radio modem will acknowledge changes if

they are between band limits. The display will

return automatically to display the main menu (if

the entered frequency is not acceptable an error

message will be displayed).

▲ ▼

9.3.3 Changing radio settings (transmitter power and receiver sensitivity)

Press ▲ or ▼ until

the cursor > points

to “Radio settings”

selection and press

”Select” to move on

to the submenu.

▲ ▼

Press ▲ or ▼ until

the cursor > points

to the setting to be

modified and press

”Change”.

▼

MODIFYING TRANSMITTER OUTPUT

POWER:

The displayed list consists off all possible

values of transmitter output power. Press ▲

or ▼ until the cursor > points to the desired

value and press ”SET”.

NOTE: The starting position of the cursor

indicates the previously set value.

▼

SATELLINE-EASy Pro

User Guide v.1.7

MODIFYING RECEIVER SENSITIVITY:

The displayed list consists off all possible

values of receiver sensitivity. Press ▲ or ▼

until the cursor > points to the desired

value and press ”SET”.

NOTE: The starting position of the cursor

indicates the previously set value.

▲ ▼

MODIFYING THE TRANSMIT START

DELAY:

The display will show the current value of

the delay. Press ”Change” to modify the

value.

▲▼

Press ▲ or ▼ until the first digit of the value

has reached the desired value and then

press ”NEXT” to move on to the next digit.

▲▼

Repeat the above described five (5) times.

Press ▲ or ▼until the last changeable digit

has the desired value and finally confirm

changes by pressing ”SET”.

▲▼

MODIFYING THE COMPATILBILITY:

Press ▲ or ▼ until

the cursor > points

to the setting to be

modified and press

”Change”.

▲▼

The display will show the current value.

Press ▲ or ▼ until the cursor > points to

the desired value and press ”SET”.

▲ ▼

MODIFYING THE CALL SIGN:

Press ▲ or ▼ until

the cursor > points

to the setting to be

modified and press

”Change”.

▲ ▼

SATELLINE-EASy Pro

User Guide v.1.7

The display will show the current value.

Press ▲ or ▼ until the cursor > points to

the desired value and press ”SET”.

▲▼

9.3.4 Changing addressing

Press ▲ or ▼ until

the cursor >

points to

“Addressing”

selection and

press ”SET-UP” to

move on to the

submenu.

▲▼

Select the desired

submenu (RX or TX

address) by

pressing ▲ or ▼

and finally press

”Change”.

▼

Press ▲ or ▼ until the first digit of the

address has reached the desired value

and move on to the next digit by pressing

”NEXT”.

▲▼

Repeat the above described eight (8)

times.

Press NEXT again to jump to the toggle

field (ON/OFF) and change the status to

the desired value by pressing ▲ or ▼

until correct status is reached. Confirm

the new address and status (ON/OFF

state) by pressing ”SET”.

The display will return to the previous

(higher) level submenu.

▲▼

NOTE: Both RX and TX address modifications are done in the same way as described above.

SATELLINE-EASy Pro

User Guide v.1.7

9.3.5 Changing serial port settings (Port 1)

Press ▲ or ▼ until the cursor >

points to the desired port (in this

example to Port 1) and move on

to the submenu by pressing

”SELECT”.

▲ ▼

Press ▲ or ▼ until the cursor >

points to the setting to be

modified and then press

”CHANGE”.

▲▼

MODIFICATION OF DATA TRANSFER SPEED:

Press ▲ or ▼ until the cursor > points to the desired

data transfer speed value (X bit/s). Confirm the selection

by pressing ”SET”. The display will return to the previous

(higher) level submenu.

NOTE: The starting position of the cursor indicates the

previously set value.

▲▼

MODIFICATION OF THE NUMBER OF DATA BITS:

Press ▲ or ▼ until the cursor > points to the desired

number of data bits (7 or 8 or 9 bit data length).

Confirm the selection by pressing ”SET”. The display will

return to the previous (higher) level submenu.

NOTE: The starting position of the cursor indicates the

previously set value.

▲ ▼

MODIFICATION OF PARITY BITS:

Press ▲ or ▼ until the cursor > points to the desired

parity bit status. Confirm the selection by pressing

”SET”. The display will return to the previous (higher)

level submenu.

NOTE 1: The starting position of the cursor indicates

the previously set value.

NOTE 2: If the number of data bits is set to 9, the value

of parity bits must be set to NONE (none parity).

▲▼

NOTE!

The radio modem has one serial port, PORT 1 which complies with the RS-232 standard. PORT

2 is not in use and the settings of serial PORT 2 cannot be changed.

SATELLINE-EASy Pro

User Guide v.1.7

MODIFICATION OF THE NUMBER OF STOP BITS:

Press ▲ or ▼ until the cursor > points to the desired

number of STOP bits. Confirm selection by pressing

”SET”. The display will return to the previous (higher)

level submenu.

NOTE: The starting position of the cursor indicates the

previously set value.

▲▼

9.3.6 Modification of handshaking functions

Press ▲ or ▼ until the

cursor > points to

“Handshaking” selection

and move on to the

submenu by pressing

”SELECT”.

▲▼

There are three (3)

submenus relating to

handshaking parameters.

Press ▲ or ▼ until the

cursor > points to the

desired submenu

selection and press

”CHANGE”.

▼

DEFINING CTS-LINE FUNCTIONS:

Press ▲ or ▼ until the desired function is

indicated by the cursor > and confirm selection

by pressing ”SET”. The display will return to the

previous (higher) level submenu.

▲▼

DEFINING CD-LINE FUNCTION:

Press ▲ or ▼ until the desired function is

indicated by the cursor > and confirm selection

by pressing ”SET”. The display will return to the

previous (higher) level submenu.

▲▼

DEFINING RTS-LINE STATUS:

Press ▲ or ▼ until the desired function is

indicated by the cursor > and confirm selection

by pressing ”SET”. The display will return to the

previous (higher) level submenu.

▲ ▼

SATELLINE-EASy Pro

User Guide v.1.7

9.3.7 Selecting special functions

Press ▲ ▼ until the cursor > points to

“Additional” selection and press ▼

”SELECT” to move on to the submenu.

▲▼

Press ▲ or ▼ until the cursor > points

to the setting to be modified. Press

”CHANGE” to toggle the status of the

said parameter from ”ON” to ”OFF”

and vice versa. Press ”CHANGE” until

the parameter has the desired status.

Repeat for all special functions to be

modified and finally confirm all changes

by pressing ”BACK”. The display will

return to the previous (higher) level

submenu.

▲▼

9.3.8 Activating tests

Press ▲ or ▼ until cursor > points to

“Tests” selection and press ”SELECT” to

move on to the submenu.

▲▼

Press ▲ or ▼ until cursor > points to

the test that is to be initiated. Press

”CHANGE” to toggle the status of the

selected test from ”ON” to ”OFF” and

vice versa. After the tests have been set

to desired states confirm all changes by

pressing ”BACK”. The display will return

to the previous (higher) level submenu.

When the tests have been switched ON

the TD led is green. Test signal will be

activated by pressing BACK and saving

the setting.

▲ ▼

SATELLINE-EASy Pro

User Guide v.1.7

9.3.9 Restoring factory settings

Press ▲ or ▼ to move cursor >

to point to “Factory set-up”

selection and press ”SELECT” to

move on to the submenu.

▲▼

Press ”YES” and all radio

modem configuration settings

will return to factory settings

(which are the ones that the

modem was delivered).

9.3.10 Adjusting the contrast of the LCD-display

Press ▲ or ▼ to move the

cursor > to point to “Contrast”

selection and press ”Select” to

move on to the submenu.

▲ ▼

The display will show the current

value of contrast. To modify

contrast setting press ”Change”.

Press ▲ or ▼ until the cursor > points to the desired

contrast level value. Confirm selection by pressing

”SET”. The display will return to the previous (higher)

level submenu.

NOTE: The modified contrast value will actually take

effect only after the radio modem is switched out from

Programming Mode back into Data Transfer Mode.

NOTE: The starting position of the cursor indicates the

previously set value.

▲▼

SATELLINE-EASy Pro

User Guide v.1.7

9.3.11 Saving modified values into the internal memory

After all desired modifications have been performed; they have to be saved in order to make them

permanent (until next modification). This is accomplished by choosing selection ”EXIT” from the

main menu. The display will then show a message (see below) asking a confirmation of the

performed modifications.

By choosing ”YES” all modifications are saved into the non-volatile memory inside the radio

modem. By choosing ”NO” all modification performed are cancelled and previous settings

remaining in the non-volatile memory.

Press ”YES” to save all

modifications into the non-

volatile memory and ”NO”,

if modifications are to be

cancelled.

▼

9.4 Changing parameters using the SL-commands

The controlling terminal device can change the configuration settings of a radio modem. This is

accomplished with the help of SL-commands, which can be used in data transfer mode. SL-

commands can be used to change e.g. the frequency or addresses. It is also possible to interrogate

a radio modem in order to gain information concerning current settings that are in use. The terminal

device is either a PC or a programmable logic (PLC) together with suitable (terminal) program. SL-

commands must be enabled using Programming Mode before they can be used.

An SL-command is a continuous string of characters, which is separated from other data by pauses

that are equal or greater than time defined by Pause length parameter in the set-up. No extra

characters are allowed at the end of an SL-command. Serial interface settings are the same as in

data transfer and MODE pin of the serial connector MUST NOT be connected to ground (GND).

SL-command is properly recognised also in the case when the command string is terminated in

<CR> (=ASCII character no. 13, Carriage Return, 0x0d) or <CR><LF> (<LF> = ASCII char.

no. 10, Line Feed, 0x0a). If multiple SL commands are sent to the radio modem the next command

can be given after receiving the response ("Ok" or "Error") of the proceeding command. In addition,

it is recommended to implement a timeout to the terminal software for recovering the case when

no response is received from the radio modem.

When the power of a radio modem is switched off the configuration settings of a radio modem

always return to values defined initially using the Programming Mode, thus resetting any settings

changed using SL-commands during power on. It is however possible to save settings changed by

using SL-commands and to make them the new configuration settings.

The radio modem will acknowledge all commands by returning an "OK" (command carried out or

accepted) or the requested value, or an "ERROR" (command not carried out or interpreted as

erroneous) message.

SATELLINE-EASy Pro

User Guide v.1.7

In case you need more information on the time delays related to the use of SL-commands, please

contact the manufacturer.

In order to get information of the latest and/or special SL-commands please contact SATEL Oy.

9.4.1 Frequency

Command

Effect and description of command

SL&FR=nnn.nnnnn

Set RX-frequency to nnn.nnnnn MHz

SL&FT=nnn.nnnnn

Set TX-frequency to nnn.nnnnn MHz

SL&F=nnn.nnnnn

Set both RX&TX-frequency to same nnn.nnnnn MHz

SL&FR?

Get RX- frequency (response 'nnn.nnnnn MHz')

SL&FT?

Get TX- frequency (response 'nnn.nnnnn MHz')

SL&F?

Get RX&TX- frequencies (response TX nnn.nnnnn MHz, RX nnn.nnnnn MHz)

SL&C?

Get Reference (Center) frequency (response 'nnn.nnnnn MHz')

SL&C=nnn.nnnnn

Set Reference (Center) frequency to nnn.nnnnn MHz

SL&+=nn

Set RX&TX- frequency nn channels above reference frequency

Frequency = Reference frequency + nn * Channel spacing, where nn=[0...Number of

channels/2]

SL&-=nn

Set RX&TX- frequency nn channels below reference frequency

Frequency = Reference frequency – nn * Channel spacing, where nn=[0…Number of

channels/2]

SL&N?

Get current RX&TX- frequency deviation from reference frequency as channels

(Frequency – Center frequency)/Channel spacing (response ‘+nn’ or ‘-nn’)

SL&W?

Get channel spacing (response ‘nn.n kHz’)

SL&D=x

Set operational mode of the radio. The different values of x are:

”S” = Single Channel

”D” = Dual Channel

”R” = Reverse Dual Channel

Note! Use this command only, if the setup of the frequency bands matches the Dual

Channel operation.

SL&D?

Get operational mode of the radio. The response is one of the following:

”S” = Single Channel

”D” = Dual Channel

”R” = Reverse Dual Channel

Note! Use this command only, if the setup of the frequency bands matches the Dual

Channel operation.

SATELLINE-EASy Pro

User Guide v.1.7

9.4.2 Addressing

xxxx = address in hexadecimal format (0000 … FFFF)

Command

Effect and description of command

SL#I=xxxx

Set all addresses (RX1, RX2, TX1, TX2) to value xxxx

SL#I?

Get both primary addresses (TX1, RX1) (response ’xxxx;yyyy’)

SL#T=xxxx

Set both transmit addresses (TX1, TX2) to value xxxx

SL#T?

Get primary transmit address (TX1) (response ‘xxxx’)

SL#R=xxxx

Set both receive addresses (RX1, RX2) to value xxxx

SL#R?

Get primary receive address (RX1) (response ‘xxxx’)

SL#Q=x

Set TX address on x=1, off x=0

SL#Q?

Get status of the TX address (response ‘1’ on, response ‘0’ off

SL#W=x

Set RX address on x=1, off x=0

SL#W?

Get status of the RX address (response ‘1’ on, response ‘0’ off

SL#P=xxxx;yyyy

Set primary transmit address (TX1) to value xxxx and receive address (RX1) to value

yyyy

SL#S=xxxx;yyyy

Set secondary transmit address (TX2) to value xxxx and receive address (RX2) to

value yyyy

SL#P?

Get primary transmit address (TX1) and receive address (RX1)

(response ‘xxxx;yyyy’)

SL#S?

Get secondary transmit address (TX2) and receive address (RX2)

(response ‘xxxx;yyyy’)

SL#A=xxxx,yyyy,

wwww,zzzz

Set addresses to values TX1=xxxx TX2=yyyy RX1=wwww RX2=zzzz

SL#A?

Get all addresses (response ´xxxx, yyyy, wwww, zzzz)

9.4.3 Radio parameters

Command

Effect and description of command

SL@R?

Get field strength of the last received message (the value is an average of many

measurements made during the same reception).

Response ”-xx dBm”, where xx is a decimal value of the field strength and it is

between –80 dBm and –118 dBm. Value available 7s after reception.

SATELLINE-3AS Epic returns the stronger value of two receivers.

SL@P=xxxxx

Set RF output power, where xxxxx is the decimal value of the intended power in

mW. If the given value does not correspond to one of the programmed power

levels, the output power is set to the nearest possible value.

SL@P?

Get RF output power.

Response ”xxxxx mW”, where xxxxx is a decimal value the output power of the

transmitter.

SL@T=-xxx

Set minimum power level of the signal to be received (="Signal Threshold level),

where xxx is a decimal value of the new intended level in dBm.

SL@T?

Get current "Signal Threshold Level". Response is "-xxx dBm.

SL@D=x

Set TX delay. Value x = 0…65535 ms

SL@D?

Get TX delay value. Response ‘x ms’

SL@F?

Get current noise level on the radio channel. Response "-xxx dBm".

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9.4.4 Other functions

Command

Effect and description of command

SL**>

Set current settings as permanent settings.

This command must be used only seldom and under controlled conditions in

order to avoid the corruption of the settings, which may happen in case the

power supply fails in the middle of the memory save procedure.

SL%V?

Get Firmware revision information (response ’Vn.nn’)

SL%D?

Get modem type

SL%S?

Get modem serial number (response ‘nnnnnnnnnn’ or ‘No Serial nr’)

SL%C?

Get specified information field. If not specified the response is ‘No version id’).

For more information please contact SATEL Oy.

SL%P=1

Activate Programming mode without the use of PROG pin. Note that the serial

port data speed remains the same as in the data transfer mode.

SL%B?

Get serial data parameters, response is a,b,c,d where

a= "38400", "19200", "9600", "4800", "2400" or "1200" (defines the baud rate)

b= "8", "7" or "9" (defines the character length)

c= "N", "E" or "O" (defines the parity)

d= "1" or "2" (defines the number of stop bits)

SL%B=a,b,c,d

Set serial data parameters for data ports, where

a= "38400", "19200", "9600", "4800", "2400" or "1200" (defines the baud rate)

b= "8", "7" or "9" (defines the character length)

c= "N", "E" or "O" (defines the parity)

d= "1" or "2" (defines the number of stop bits)

Response is "OK" at the original baud rate.

SL+P=xx

Get measured signal strength from the remote modem i.e. SL “ping”.

If a remote radio modem is pinged the response is “OK, Modem xxxx rssi –80

dBm”, where xxxx=RX1/RX2 address (in case the Tx/Rx addressing is configured)

or the terminal address of the modem ( in case the Message Routing is ON).

“OK” is first received from the current radio modem to acknowledge that the SL-

ping command has been interpreted correctly. The rest of the response will take

a little longer to come, depending on the length of the radio link.

The remote radio modem that is to be pinged does not need to have SL-

commands ON.

The value of the RSSI is between –118 and –80 dBm. If the signal strength is

better than –80 dBm, -80 dBm is shown.

If the current radio modem is pinged, the response is “Local OK”.

Please note that the SL-ping message will come out from the serial line of the

radio modem that is pinged and also the repeater stations using the Tx/Rx

addressing.

Note, SL-ping is a very short message so it may not give accurate results from

the link condition. Even if the responses are good, channel interference may

cause problems with longer data messages.

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10 REPEATER MODE AND ADDRESSING

Repeaters and addressing may be used to extend the coverage area of a radio modem network,

and to direct messages to selected radio modems in the network. In large systems, with several

repeaters and formed repeater chains, it is often practical to use routing instead of plain addresses.

10.1 Repeater

In circumstances where it is necessary to extend the coverage area of a radio modem network,

SATELLINE-EASy Pro can be used as repeater stations.

The maximum size of a repeated data packet is 1kB (kilobyte). The Repeater Function is switched

on using the Programming Mode. In the repeater mode the radio modem will function as a totally

independent unit, which means that only a power supply and a suitable antenna are needed. Other

devices are not necessary.

A radio modem acting as a repeater can also be used to receive and transmit data. In repeater

mode the radio modem will transmit the received data to the serial interface in a normal fashion.

The difference being that the received data will be buffered into the buffer memory. After reception

the radio modem will re-transmit the buffered data using the same radio channel as in reception.

Data received through the serial interface a radio modem in repeater mode will transmit normally.

The same network may include several repeaters, which operate under the same base station.

Repeaters may also be chained; in which case a message is transmitted through several repeaters.

In systems with more than one serially or parallelly chained repeater, addressing or routing protocol

must be used to prevent a message ending up in a loop formed by repeaters, and to ensure that

the message finally reaches only the intended radio modem.

MASTER ST A TIO N

REPEATER 1

REPEATER 2

S L AVE ST A TIO N

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10.2 Addressing

Addresses can be used to route a data message to the desired destination or to separate two

parallel networks from each other. In networks with repeaters it is usually necessary to use addresses

to prevent data messages from ending up in loops formed by repeaters. In case of setting the

“Message Routing” function in use, Tx / Rx addresses are ignored by the modem.

SATELLINE-EASy Pro allows the use of individual addresses both for reception and transmission.

Addresses can be switched on separately, or simultaneously, in both data transfer directions.

The radio modem contains two transmission and two reception addresses, which are knows as the

primary address and secondary address. The primary address is used whenever data from the serial

interface is transmitted. At the receiving end, the radio modem will receive using either of the two

receive addresses.

Secondary transmit address is only used in repeater applications.

Radio modems configured to function as repeaters, will repeat data messages using either the

primary or secondary address, depending upon which address was used during the reception of the

data message.

If only one address pair is needed in a network, both addresses must be set the same (TX1

= TX2 and RX1 = RX2).

It is also possible to transfer the received address onto the serial interface.

The address is composed of two characters totalling 16 bits, resulting in over 65,000 different

address combinations. The address is attached to the beginning of each data packet sent by the

radio modem. When a radio modem receives a data packet whilst using addressing mode, the

radio modem will check the first two characters of each received data packet to ensure that the

packet in question was intended for the correct radio modem.

ADD H

ADD L

DATA

Address may be selected between 0000h…FFFFh (h = hexadecimal, corresponding decimal

numbers are 0-65535).

Example: address 1234h (4660 in decimal format), where 12h is ADD H and 34h is ADD L.

Example: address ABFFh (44031 in decimal format), where ABh is ADD H and FFh is ADD L.

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Transmission:

Transmission address has been set OFF.

Radio modem will transmit the data

packet as such.

Transmission addressing has been set ON.

The radio modem will add the primary TX

address to the beginning of the data

packet.

Reception:

Reception addressing has been set ON and

either the primary or secondary RX address of

the radio modem is identical to the address of

the received data packet.

The radio modem will remove the address and

send the actual data to the RS-232 interface.

However, if the ”RX Address to RD-line”

setting is on, the radio modem does not

remove the address.

Reception addressing has been set ON,

but both the primary and secondary RX

addresses of the radio modem are

different from the address of the received

data packet.

Data does not appear on the RS-232 -

interface.

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Reception addressing has

been set OFF.

The radio modem will

transfer all received data

to the RS-232 interface.

Reception addressing has

been set OFF.

The radio modem will

consider the characters of

the address as a part of the

data and will send all the

characters to the RS-232

interface.

Reception addressing has

been set ON but there is no

address in the data packet.

Data will appear on the RS-

232 interface ONLY if the

first 2 characters of the data

match either of its own RX

address. The radio modem

will remove those 2

characters of data.

10.2.1 Connection between two points

When forming a connection between two points it is recommended that both the reception and

transmission addresses are identical in both radio modems. This is the easiest way to control

addresses and the risk caused by interference from other systems operating in the same area is

minimal.

Example: by setting all addresses of both radio modems to a value ´1234´, they will accept only

those messages which contain this address, and they will use this same value when transmitting

data.

If the channel is reserved for use only by the said network, or if the terminal devices are responsible

for addressing, it is not necessary to use addressing in the radio modems.

10.2.2 System of one base station and several substations

In systems with several substations, the base station must know to which substation each message

is intended, and from which substation each received message originates. Usually terminal devices

handle addressing completely, but it is also possible to use the addressing functionality of the radio

modems.

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For example, if the substation terminal devices are not able to check and form addresses by

themselves, addressing may be achieved with the help of the addresses of the radio modems

attached to these terminal devices. The base station may, in such a case, define the destination of

a message by adding the address of the corresponding radio modem into the beginning of the data

packet. The substation radio modem(s) will check the address and the corresponding radio modem

will identify and remove the address characters. In a similar way, the substation will add when

transmitting to the base station its address characters into the beginning of the data packet, thus

defining the origin of the sent data packet. In the base station radio modem, addresses have been

switched OFF, so that they are transmitted as is to the base station terminal device for further

processing.

10.3 Using repeaters and addresses in the same system

In systems with several repeaters, a substation and a base-station, addresses must be used in radio

modems. It is possible to realise also a system with only one repeater without addressing. In such a

case, the base station will however hear the message both from the substation and from the

repeater, in other words the message is duplicated as it moves along the route.

There are at least two ways of realising such a system depending on the capabilities of the terminal

devices in question and on the number of repeaters to be used and on their relative positions to

each other.

10.3.1 System with several repeaters

In systems with several serial or parallel-chained repeaters, addressing must be used to prevent

messages from ending up in loops otherwise formed by repeaters, and to ensure that only the

desired (addressed) radio modem receives the data intended for it.

All radio modems in the network must be set to a state, in which the RX-addressing is switched ON

and TX-addressing is switched OFF. Base-station and all substations add an address string in the

beginning of the data to be transmitted. In the relaying of the message addressing is used in the

following way:

R1 ADD

R2 ADD

S ADD

DATA

- The above is the data received from the base station terminal device, containing repeater

addresses (R1 ADD, R2 ADD) and the substation address (S ADD). Two characters define each

address.

R2 ADD

S ADD

DATA

- The above is the same message after being relayed from repeater 1 to repeater 2.

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S ADD

DATA

- The above is the same message after being relayed from the last repeater in the chain (repeater

2) to the substation.

DATA

- The above is the same message being relayed via the serial interface of the substation radio

modem to the terminal device.

In a situation where the substation transmits data towards the base-station the address is formed in

a similar way, but the order of the addresses is reversed:

R2 ADD

R1 ADD

M ADD

DATA

-In the above, R2 ADD is address of repeater 2, R1 ADD is address of repeater 1 and M ADD is

the address of the base-station.

10.3.2 Repeater chain using address pairs

In a situation where the terminal devices and substations cannot form address fields, but are able

to recognise messages addressed to them, alternating address pairs may be used. Transmit address

(TX) and receive address (RX) alternate in the order shown in the table below.

Address type

Base-station address

Repeater 1 and the

addresses of the

substations of the base-

station

Repeater 1

substations

addresses

TX-address

Address 1

Address 2

Address 1

RX-address

Address 2

Address 1

Address 2

In a network where alternating addresses are utilised, the exact route that is used to relay a message

to a certain radio modem is fixed at the time of installation and configuring the system. The order

of the addresses must be the same as the order of the route that is used to relay the message to the

said radio modem. It should be noted however, that in network where alternating addresses are

used the base-station and substations will hear their own messages repeated.

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10.3.3 Repeater chain using dual addressing

If the terminal devices cannot add address chains to the beginning of the data packets, a network

with several repeaters may still be realised by using dual addressing. In dual addressing each link

(see arrows below in figure) is given a unique address, which will prevent duplication of messages

and endless loops in the network. The terminal devices need not add anything to the data.

Usually the primary transmit address is used in transmission (TX1). The secondary transmit address

(TX2) is used only if the Repeater Mode is used and the packet to be repeated was received using

the secondary reception address (RX2).

In the following example two repeaters are used. It should be noted that each link (arrow) might be

uniquely defined with the help of radio modem numbers and data transfer directions. The Repeater

Mode should be switched ON only in the radio modems acting as repeaters to prevent the packets

from remaining in endless loops in the network.

Repeaters may also act as ordinary substations; in that case the terminal device must wait until the

message has reached the end of the repeater chain before sending data.

10.3.4 Redundant repeater chain

Reliability of a radio data communication system can be improved significantly by designing

redundant equipment setup for master and repeater stations. The two repeater chains are separated

by proper dual addressing setup. Slave stations need to be able to communicate with the master

through the both repeater chains. By using the "TX address auto switch" function, the slave station

modem directs the reply message to the repeater chain from which the request has been received.

If "TX address auto switch" has been set ON, radio modem checks out the RX address of the received

message. When one of the RX addresses is recognised, all the messages coming in from the serial

interface will be sent to the air with matching TX address. The use of "TX address auto switch"

function is not recommended if Repeater Function is set ON.

(12)

(21)

(43)

(34)

rxd

txd

rxd

txd

Modem 1

master

Modem 2

repeater

Modem 3

repeater

Modem 4

TX1

RX1

TX2

RX2

Addresses:

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11 MESSAGE ROUTING

11.1 Introduction to Message Routing

Message Routing is an exciting feature in SATELLINE-EASy Pro. This feature allows messages from

terminal devices to be automatically routed over the radio modem network to a specified recipient

terminal.

In brief, the Message Routing works as follows:

 First, a radio modem reads any message coming from the terminal(s) attached to it.

 The radio modem detects the terminal address of the recipient, by seeking a pre-set position

inside the message for the address.

 The radio modem checks its internal route table to see, if there is route information

corresponding the address it has just found.

 The radio modem transmits a radio frame, which includes

 network id (see later)

 route information

 original user message encapsulated

 redundant information such as checksums for error checking etc.

 The radio modems along the route relay the frame over the network to the radio modem at

the destination.

 The radio modem at the destination first checks the validity of the received radio frame, then

extracts the original user message, and finally outputs it the terminal device attached to it.

The figure left illustrates a possible structure of a

radio modem network.

M = Master station (Central station)

R = Repeater station

S = Slave station

T = Terminal device

Mob = Mobile terminal

Terminals are usually PLC devices that send and

receive messages according to a specific user

protocol.

Note: The term repeater used in the context of the Message Routing should not be mixed with the

Repeater Mode, which is a feature independent from the Message Routing.

R R

Mob

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11.1.1 Features of Message Routing

The Message Routing feature of the SATELLINE-EASy Pro is designed to be a fast and transparent

to fit real time systems. The features include:

 Transparent to user protocols.

 Easy construction of a network containing several repeaters.

 Any radio modem may operate as a repeater, i.e. dedicated repeaters are not usually

needed thus cutting down on costs.

 Large areas of coverage may be implemented by using only one radio channel.

 The use of mobile substations is also possible to some extent.

 The system will be fully deterministic i.e. the transmission delays are predictable. Because of

that, the principle of Message Routing is connectionless.

 Added redundancy, as a failing radio modem can be, in certain cases, bypassed with

another radio modem positioned in the same coverage area.

 Message Routing is intended mainly for the protocols based on polling scheme and a single

master station.

11.1.2 Limitations of Message Routing

 It is assumed that the position of the address field in the user messages is fixed. However

some special protocols are supported:

o IEC 60870-5-101 is a protocol commonly used in control applications of power

lines.

o RP570 protocol

 The message cannot end to the address; there must be at least one character after the

address.

 It is assumed that there is only one message at a time inside the network simultaneous

messages could cause collisions.

 The max number of the routes depends on the actual hardware and the Firmware version.

 Operation of the Tx / Rx addresses is automatically blocked in the case of switching the

“Message Routing” function on.

11.1.3 Getting started with Message Routing

The design of any radio modem system requires very precise planning. Once the choices between

devices, their location, installation, maintenance etc. are clear, the Message Routing for the system

can be implemented.

Planning your Message Routing System

1. Decide which mode of the Message Routing suits the system - Source Mode or Virtual Mode. See

the following paragraphs for details.

2. Design a layout of the system describing the settings such as protocol, addresses of the terminal

equipment, radio frequencies and so on.

3. Configure the radio modems accordingly. There are two ways to configure the parameters

related to the Message Routing:

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1. SaTerm PC-program

2. Manual configuration in the setup menu.

In either case, please check the chapter on Settings before changing the setup of the radio modems.

Finally, when all the radio modems have correct settings, they are ready for further installation.

11.1.4 SaTerm and the configuration of the Message Routing

SaTerm is a PC based program that allows the user to design their required network simply and

quickly using a graphical interface to literally draw the network plan on the screen.

 Firstly, a picture of the network is created to show all the radio modems and the intended

route that the data is to take.

 Secondly, the required settings are defined in the drawing.

 Finally, the setup of each actual radio modem can be uploaded by connecting the actual

radio modems one by one to the COM port, switching them to the programming mode,

and clicking the transmit button of SaTerm.

Please check the user manual of SaTerm for more details.

The figure below shows a typical snapshot taken from a SaTerm screen.

11.1.5 Manual configuration of the Message Routing

The radio modems can be configured manually via the programming menu. However, this is

recommended only if the structure of the network is very simple, or if it is desirable to define such

special functions that are not possible to draw using the graphical interface of SaTerm. Examples

of such cases are for example non tree-structured networks, or the use of same repeaters in several

overlapping networks. The operation of the Message Routing must be clearly understood before

configuring the radio modems manually.

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11.1.6 Configuration of the protocol in Message Routing

A radio modem will detect the presence of an address used by inspecting the protocol from the

message received via the serial interface. On the basis of this user address, all necessary information

needed to relay the message to destination is fetched from an internal routing table inside a radio

modem. The user protocol is not interpreted; instead, the user address is searched according to its

location in the message. The beginning of the packet is located by a preceding pause in the byte

stream. Message Routing can therefore be applied to most protocols with fixed address field

position.

The position and length of the address is defined by two settings: Offset and Length.

 Offset defines the number of bytes (0…15) preceding the address.

 Length is the length of the address in the user protocol expressed in bytes (1…4).

A transmitting radio modem adds a routing header and a tail to the user message. Consequently,

a radio modem that receives the message removes the header and tail - so the Message Routing

scheme is transparent to the user protocol.

11.2 Operating modes of Message Routing

Of f s e tL e n g t h

B y t e le n g t h

US E R A D D R E S S

S t a r t o f d a t a p a c k e t , O f f s e t = 2 , L e n g t h = 3

US E R D A T A

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The Message Routing has two different operating modes:

 Source Mode Routing

 Virtual Mode Routing

The most important differences between the two modes are shown in the table below.

Property

Source Mode Routing

Virtual Mode Routing

Summary

Slower, more functions

Faster, less functions

Radio interference tolerance

Yes, overhop function

Support for mobile stations

Yes

Addition of substations to a

network

Only master station needs to be

reconfigured

Master station and consecutive

repeaters need to be

reconfigured

Changing routes

Only master station needs to be

reconfigured

All radio modems need to be

reconfigured

Maximum length of route

13 hops

No limit

Overhop function

Yes

Network ID

Yes

Storing of routing information

Centralised

Dispersed

Message Routing overhead

(bytes)

10+2*number of hops

Maximum length of user protocol

message (bytes)

1kB – Message Routing overhead

1kB – Message Routing

overhead

Other issues common to the both modes:

 The maximum number of terminals depends on the radio network structure and the

number of routes.

 Multiple terminal addresses may be attached to a radio modem.

 The maximum length of a terminal address (in the user's protocol) is four bytes (FFFFFFFF

in hexadecimal).

 The maximum length of the address of a radio modem is two bytes (FFFF in hexadecimal).

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11.3 Detailed description of Message Routing

11.3.1 Source Mode Routing

The above figure represents a network containing four (4) radio modems. Each radio modem is

given a unique address (0…3). A terminal device has been attached to the three of the four radio

modems and they communicate with each other using terminal addresses X, Y and Z, respectively.

Radio modem 0 and terminal device X together constitute the base station of the network and all

routing information of the network has been programmed into this base station.

When the terminal device X transmits a packet to (e.g.) terminal Y, radio modem 0 will detect the

address Y from the data received through the serial port. From the routing table a route 1,2 can be

found to which the radio modem also adds its own address to define the route for return data.

Radio modem 1 repeats the packet and radio modem 2 removes the address information from the

received data packet thereby transferring only the original data to the serial interface. The address

information received together with the packet is reversed (2, 1, 0) and saved to be use in the

transmission of subsequent reply packets.

11.3.2 Virtual Mode Routing

Please contact SATEL for more information of Virtual Mode Routing.

Järjestelmä Modeemi

Y 1, 2

Z 1, 3

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11.3.3 Overhop function in Source Mode Routing

M a s t e r T D

R a d io

S u b s t a t io n R D

R1 R2

M a s t e r

R1 R2

When using repeaters, the same packet is sent via a (radio) channel several times. A radio modem

situated in the repeater chain will often hear other radio modems in addition to the immediate

neighbouring radio modems. With Source Mode Routing the complete address information is sent

together with the packets enabling the use of these secondary routes. Usually repeaters have better

antennas (and/or antennas placed higher) than normal substations, which means that the distance

between two repeaters can be much longer than the distance between a repeater and a substation.

Connections to other than the neighbouring stations of the repeater are not necessarily reliable

under all possible (radio) conditions, but they can often be used to keep the network up and running

at least partially should a repeater somewhere in the middle of the chain fail. In addition to this, the

likelihood of a transmission error decreases if it is possible to listen to more than one transmission

since; in this case, it is more likely that at least one of them will be received error-free. It is also

possible, that the radio connection is asymmetrical due to the greater output power of a repeater

or due to local interference, in which case, data can in fact travel in opposite directions using

different routes.

When a repeater receives a message that contains its address but not as the first address in the

address field, the packet is stored in a buffer. If the relayed message from the repeater, and the

modem having sent the message originally, is not received (due for example, because of radio

modem failure or if it has an erroneous checksum), the packet already buffered into the memory is

re-sent without any change to the timing (no additional delays are introduced). Because of this,

relatively short hop distances can be used, without the likelihood of errors being increasing due to

the added number of repeats. A possible error in one of the repeaters does not necessarily cause

a total breakdown of traffic.

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The overhop function allows for the use of mobile substations. In the example above, a mobile

substation is first located in the coverage area of repeater R2. The route is defined as M, R1, R2

and vehicle. When the vehicle moves to the coverage area of repeater R1, the radio modem picks

the packet already from the transmission of R1. This is then transferred to the serial port using an

additional delay, so that the timing does not differ from the first situation where the radio modem

of the vehicle was in the coverage area of repeater R2. In this way a collision of the reply

transmission and the transmission by repeater R2 is prevented. When the mobile station is

transmitting, it is enough that at least one radio modem defined to be a part of the route receives

the transmission.

11.3.4 Network ID

The Network ID is a string of up to eight characters, which is used to prevent the reception of the

messages coming from an external system. The radio modems operating in the same system using

Message Routing must have the same Network ID. Only the messages that have a matching

Network ID are received.

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12 INSTALLATION

12.1 Installation of a Radio Data Modem

The radio modem should be installed with the installation accessories supplied with the radio

modem.

12.1.1 RS-232 Wiring

NOTE! In SATELLINE-EASy Pro the voltage is limited to 16V.

NOTE!

When selecting a suitable location for the radio modem it must be ensured that no water can

get into the radio modem under any conditions. Direct sunlight is also to be avoided. It is not

recommendable to install the radio modem on a strongly vibrating surface. Suitable

dampening and/or isolation materials should be used in cases where the installation surface

will be subjected to vibration.

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12.1.2 Fuse

A proper fuse must be connected in between the radio modem and the power supply. The correct

value is 15A for SATELLINE-EASy Pro.

12.1.3 Power supply

The allowed operating voltage is +9 ... +16 V

. The radio modem must only be connected to a

power supply with an adequate current output (power rating minimum is 120W). The pins 1 and 2

of the 4pin Odu-connector are connected to the positive power supply line. The pins 3 and 4 are

connected to negative power supply line (ground).

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12.2 Antenna installation

12.2.1 Mobile equipment

 ¼-wave antenna

 ½-wave antenna

The ideal installation position is vertical, and there should be at least 0.5 m of free space around

the antenna. In small systems a ¼-wave antenna is sufficient. A separate ground plane should be

placed under the antenna (vehicle rooftop or the engine hood or trunk door are usually suitable).

In problematic cases the most suitable type is a ½-wave antenna. It can be installed directly at the

top of a pipe with the added benefit of gaining as much as free space around the antenna as

possible. In cases, which the antenna cannot be directly connected to the TNC-connector of the

radio modem, a coaxial cable with 50 ohm impedance must be used between the antenna and the

TNC-connector.

12.2.2 Base stations

 Omni-directional antennas ( ¼- , ½- or 5/8-wave antenna)

 Directional antennas (yagi /multi-element antenna or corner antenna)

The antenna should be installed in a vertical position. The exact location of the antenna depends

on several factors, such as the size of the overall system and the coverage area terrain contours. A

rule of thumb is that the base station antenna should be located at the highest point of the coverage

area and as close to the centre of the coverage area as possible. The base station antenna can

also be located inside a building, if the walls of the building do not contain metal.

12.2.3 General antenna installation instructions

The reliability and the achievable coverage of useful signal strength can be severely affected by the

positioning of the antenna. Antenna and cable connectors should have gold-plated pins and

sockets, as use of low quality connectors can lead to eventual oxidation of the connector surfaces,

which in turn may degrade the contact and cause additional attenuation. Good quality tools and

materials must be used when installing radio modems, antennas and cables. The weather tolerance

of the materials used must also be taken into account. Installed materials must withstand all

foreseeable weather conditions (frost, excess sun, direct UV-radiation, seawater etc.). Also possible

environmental pollution must be considered (acids, ozone etc.).

NOTE!

Because of the great transmission power of SATELLINE-EASy Pro radio modem, only an

external antenna is allowed. A whip-antenna directly connected to the antenna connector

must not be used.

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Antennas must be installed well away from metallic objects. In the case of small antennas this

distance should be at least ½ m. With large antennas the distance should be >5 m and in case of

repeater antenna combinations >10 m.

If the system contains a large number of radio modems, the best location for an antenna is the

highest point of a building and possibly an additional antenna mast. If a separate antenna mast is

used, the antenna can, if necessary, be installed sideways about 2…3 m from the mast itself.

When installing an antenna possible interference sources must be considered. Such interference

sources are, for example:

 mobile telephone network base station antennas

 public telephone network base station antennas

 television broadcast antennas

 radio relay antennas

 other radio modem systems

 PC-related devices (approximately 5 m radius from antenna)

When ordering antennas we request you to note that antennas are always tuned to a specific

frequency range. Simple antennas and antennas, which have been constructed of stacked yagi-

antennas, are typically rather broadband. As the number of yagi-elements increases the frequency

range becomes narrower. Note this specially with 35W.

When designing and installing a system it is advisable to prepare to test the system, and also to

consider serviceability of the system. In particular cabling should be planned to allow easy access

and to allow for maintenance. It is often practical to use long antenna cables, so that the radio

modem can be installed far enough from the antenna itself to a location that is easily accessible

(see section 10).

The type of the antenna cable is dependent on the length of the antenna cable, and the following

table can be used to select a suitable type:

Length

Type

Attenuation 10m/450MHz

<5m

RG58

3.0dB

0…20m

RG213

1.6dB

>20m

ECOFLEX10

0.9dB

>20m

AIRCOM+

0.8dB*

>20m

ECOFLEX15

0.6dB

*) AIRCOM+ cable is partially air insulated, so the use of this cable requires that the connection

between the cable and the connectors are fully airtight.

If there is a line-of-sight path between the antennas a 6 dB power marginal is usually adequate.

However, if the connection is built on the reflection and/or the knife-edge diffraction the path loss

can vary even 20 dB depending on the weather conditions. In this case a short test can give a too

positive result of the quality of the connection. Thus the height of the antennas and topographical

obstacles must be surveyed with great care. From time to time a marginal connection can be used

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if the data transmission protocol is well prepared for this and the data transmission that occasionally

slows down does not cause any problems to the system.

Vertical polarised antennas (antenna elements are in vertical position) are often used in radio

systems. In a system between a base station and substations vertical polarisation is recommended.

The radio modem antenna cannot be mounted on the same level as the other substation antennas

in the same building. The best way to distinguish from the other antennas situated in the

neighbourhood is to mount the antennas as far as possible from each other on the altitude level.

The best result is generally obtained when all the antennas are in the same mast. With an extra

ground plane between the antennas more distinction can be obtained between the antennas in the

mast.

Horizontal polarisation can be used in data transmission between two points. With the polarisation

attenuation more distinction is obtained to vertical polarised systems. The influence of the

directional patterns of the antennas must, however, be taken into consideration. If a distinction to

another interfering antenna is wanted with the horizontal polarised antennas there must be a good

attenuation of the back lobe. In addition to this the interfering radiator should be situated behind

the antenna.

When a system does not demand the use of an omni-directional antenna it is recommended that

directional antennas are used e.g. two-element yagis in permanent external installations. Please

note that as antenna amplification increases the setting of the direction of the antenna requires

more attention.

Base stations in high places should be supplied with high-Q cavity filters. Please note that the higher

the base station antenna, the larger the coverage area and in turn that the risk of interference is

also increased.

SATEL recommends the use of a band-pass filter with a large Q in the antenna cable of the base

station.

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Example of an antenna installation: by using amplifying antennas (G=Gain) and by installing the

antenna high, long connection distances can be realised using the SATELLINE-EASy Pro radio

modem.

Lo w los s

Cab le

G > 6 dBi

30 m

M a s t er

St at ion

Dat a

Te r m in a l

5 m

G > 6 d Bi

RS I nt er f a c e

G > 12 d Bi

30 k m

1 5 k m

5 k m

Ant e n n a

Filt er

RS I n t er f ac e

Dat a

Te r m in a l

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User Guide v.1.7

13 DESIGNING SYSTEMS

13.1 Factors affecting the quality and distance of the radio

connection

 power of the radio transmitter

 sensitivity of the radio receiver

 tolerance of spurious radiation’s of the radio modulating signal

 amplification of transmitting and receiving antennas

 antenna cable attenuation

 antenna height

 natural obstacles

 interference caused by other electrical equipment

The transmitter power of the SATELLINE-EASy Pro is 35 W (maximum) and the sensitivity of the

receiver better than -114 dBm. Thus in a flat area and in free space with a 1/4 wave antenna

(antenna amplification 1dBi) and antenna height of 1 m communication distances of 3 to 4 km can

be achieved. Distances may be considerably shorter in situations where there are metallic walls or

other material inhibiting the propagation of radio waves.

Over long distances, increasing the height of antennas can often solve problems caused by natural

obstacles. A ten-fold increase in distance can be achieved with the use of amplifying antennas.

Frequent topographical variations over long distances may require that at least one of the antennas

be raised to a height of 10 to 20 m.

If the antenna cable is more than 10 meters long it is necessary to use a low loss cable (< 0.7 dB

/10 m) in order not to waste the antenna amplification. Adding a repeater station can also solve

problematical radio connections. In systems with many base stations the RSSI-signal can be used to

assist in choosing the base station with the best signal. A communications network can also be built

with a combination of cables and radio data modems.

The SATELLINE-EASy Pro operates in the 450 MHz band, where man made interference is

insignificant. Long distance interference needs not to be taken into account even in special weather

conditions.

The SATELLINE-EASy Pro tolerates normal levels of interference that occur. However, exceptionally

high levels of interference can break through the safeguards and thus cause errors in data transfer.

In mobile vehicle applications the range of operation can be increased by dividing the transmitted

data into e.g. 50...500 byte long blocks and by re-transmitting the defected blocks.

A sufficient safety margin can be obtained by testing the communication path using extra 6 dB

attenuation at the antenna connection and with slightly less effective antennas than those to be used

in the final system.

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13.2 Radio field strength

Radio signal strength must be good enough for successful data transfer. Where field strength is

above a certain level, the operational results are very good. Below this level, a few dB marginal

areas occur in which errors begin to be generated by noise and interference that will eventually

lead to loss of connection.

The field strength is at its optimum level in open space, although increasing distance will still reduce

it. It must also be remembered that one open space has different environmental and external factors

to another, and that the effects on transmission quality must be taken into account when planning

the system.

Ground, ground contours and buildings cause attenuation (loss of energy through absorption) and

reflection of radio waves. Buildings reflect radio waves and therefore the affects of attenuation are

not as acute when transmission is over a short distance.

However, the reflected waves will often be a bit delayed, and when they combine with the direct

radio waves they interact in either a weakening or a strengthening way. This causes the fading effect

in mobile systems. In reality very sharp signal drops spaced about 35 cm apart may occur. The

attenuation may even reach 40 dB, normally less.

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14 CHECK LIST

The following points must be taken into account when installing and configuring a radio modem:

1. All operating voltages of all the equipment concerned must always be switched OFF before

connecting the serial interface cable.

2. When considering the exact placement of a radio modem and/or its antenna, the following

points must be taken into account to guarantee optimal results:

 The antenna should be installed in open space as far as possible from any possible

sources of interference

 The radio modem should not be installed onto a strongly vibrating surface

 The radio modem should be installed in such a way as to minimise exposure to direct

sunlight.

3. To ensure reliable operation the voltage output of the power supply used must be stable enough

and the current capability of the power supply must be sufficient.

4. The antenna must be installed according to instructions.

Serial interface settings between the radio modem and the terminal unit must correspond to each

other.

6. All radio modems in the same system must be configured using equal radio settings (radio

frequency, channel spacing, compatibility, forward error correction and data field length).

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15 ACCESSORIES

15.1 RS-232 cables and adapters

Type

Description

ODU/D9f

8 pin ODU / D9 female (universal).

NARS-ST

8 pin; for EASy Pro 35W

Contact SATEL Oy for more detailed information about other serial interface cable options.

15.2 Power cable

Type

Description

C-P-35W

2m cable, ODU 4-pin male / 4mm lab plug

Contact SATEL Oy for more detailed information about other power cable options.

15.3 RF-cables

Type

Description

Length

Note

CRF-1

Cable with TNC m/TNC f-connectors

1 m

RG58 (3 dB/10 m)

CRF-5F

Cable with TNC m/TNC f-connectors

5 m

RG58 (3 dB/10 m)

CRF-5M

Cable with TNC m/TNC m-connectors

5 m

RG58 (3 dB/10 m)

CRF-15

Cable with TNC f/TNC f 90-degree

connector

15 cm

RG58 (3 dB/10 m)

RG213

Low loss cable

1.6 dB/10 m

ECOFLEX10

Low loss cable

0.9 dB/10 m

AIRCOM+

Low loss cable

0.8 dB/10 m

ECOFLEX15

Low loss cable

0.6 dB/10 m

Note! In the description, m=male, f=female connector type.

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15.4 Antennas

Type

Description

CA420O

CA450O

Omnidirectional coaxial dipole, 2 dBi, 405-440 MHz

Omnidirectional coaxial dipole, 2 dBi, 440-475 MHz

CA405GP+

CA410GP+

CA420GP+

CA430GP+

CA435GP+

CA440GP+

CA445GP+

CA450GP+

CA460GP+

CA470GP+

Omnidirectional ground plane, 6 dBi, 401-409 MHz

Omnidirectional ground plane, 6 dBi, 406-414 MHz

Omnidirectional ground plane, 6 dBi, 416-424 MHz

Omnidirectional ground plane, 6 dBi, 426-434 MHz

Omnidirectional ground plane, 6 dBi, 431-439 MHz

Omnidirectional ground plane, 6 dBi, 436-444 MHz

Omnidirectional ground plane, 6 dBi, 441-449 MHz

Omnidirectional ground plane, 6 dBi, 446-454 MHz

Omnidirectional ground plane, 6 dBi, 456-464 MHz

Omnidirectional ground plane, 6 dBi, 465-475 MHz

CA400Y

CA420Y

CA450Y

Directional yagi, 6 dBi, 380-410 MHz

Directional yagi, 6 dBi, 405-440 MHz

Directional yagi, 6 dBi, 440-475 MHz

CA400Y+

CA420Y+

CA450Y+

Directional yagi, 8 dBi, 380-410 MHz

Directional yagi, 8 dBi, 405-440 MHz

Directional yagi, 8 dBi, 440-475 MHz

SATEL antenna selection includes also directional and/or omni-directional antenna. These can be

supplied separately on request.

15.5 Filters and lightning protectors

If a radio modem system is installed in an environment that contains high-power transmitters or

sources of radio frequency interference, it is highly recommendable to insert suitable filters between

each radio modem and its antenna. If a station is installed to a location exposed to lightning, it is

recommended to insert a lightning protector to the feed-line outside the protected zone. SATEL

Technical Support can give guidance in the selection of suitable products.

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16 APPENDIX A

ASCII CHARACTER TABLE

NUL

129

172

215

SOH

130

173

216

STX

131

174

217

ETX

132

175

218

EOT

133

176

219

ENQ

[

134

177

220

ACK

135

178

221

BEL

]

136

179

222

137

180

223

138

181

224

139

182

225

140

183

226

141

184

227

142

185

228

100

143

186

229

101

144

187

230

DLE

;

102

145

188

231

DC1

103

146

189

232

DC2

104

147

190

233

DC3

105

148

191

234

DC4

106

149

192

235

NAK

107

150

193

236

SYN

108

151

194

237

ETB

109

152

195

238

CAN

110

153

196

239

111

154

197

240

SUB

112

155

198

241

ESC

113

156

199

242

114

157

200

243

115

158

201

244

116

159

202

245

117

160

203

246

118

161

204

247

119

162

205

248

120

163

206

249

121

164

207

250

122

165

208

251

123

{

166

209

252

124

167

210

253

125

}

168

211

254

(

126

169

212

255

)

127

170

213

128

171

214

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100

17 APPENDIX B

17.1 Functional delays

Function

Delay (ms)

Wakeup time from STAND-BY to ON

(controlled by DTR line)

123 ms (CTS active)

Wakeup time from Power OFF -> Power ON

(=ready to receive)

123 ms/typical

Serial interface, turnaround time of RS-232

TX-mode: Wakeup time from SLEEP to modem

ready (triggered by IRQ-data when Data in TD-

input).

60ms, typical

RX-mode: Wakeup time from SLEEP to modem

ready (triggered by IRQ-data when Data in TD-

input).

40ms, typical

RD - TD turnaround wait, if RX freq. TX

frequency.

> 20ms app. > 40 ms recommended for

compatibility prior to other 3AS-family

members.

TD - TD turnaround wait if TX frequency

changes.

> 20ms app. > 40 ms recommended for

compatibility prior to other 3AS-family

members.

SL-Ping response time from remote modem

222 ms, modem to modem w/o repeaters

17.2 Transmission related delays

Delay from the end of transmission to the end of reception on the serial interface:

Modem 1

TD-line

Modem 2

RD-line

Delay

Time

Start end

DATA

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101

17.2.1 Transmission delays when the radio TX frequency is changed

 If the modem’s transmitter frequency (TX) is different than the receiver frequency (RX),

there has to be at least 40 ms delay from the Receive Data (RD) to Transmit Data (TD).

 If the transmitter frequency is changed by an SL-command, there has to be at least 40

ms delay after the SL-command before the Transmit Data.

 If the transmitter frequency is changed from TX1 to TX2 by an SL-command during the

transmission, there has to be at least 40 ms delay after the SL-command before the

Transmit Data.

17.2.2 Transmission delays when using a 12.5 kHz radio channel

Transmission delays without FEC-function (Forward Error Correction).

Number of bytes sent

Bps

100

500

1200

4800

9600

19200

193

38400

352

Delays are in milliseconds and with a 10% margin.

100

150

200

250

300

350

1 10 100 500

Delay / ms

Number of Bytes

12.5 kHz radio channel without error correction

1200

4800

9600

19200

38400

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102

Transmission delays with FEC-function (Forward Error Correction).

Number of bytes sent

Bps

100

500

1200

4800

9600

121

19200

104

360

38400

132

496

Delays are in milliseconds and with a 10% margin.

100

200

300

400

500

600

1 10 100 500

Delays / ms

Number of Bytes

12.5 kHz radio channel with error correction

1200

4800

9600

19200

38400

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103

17.2.3 Transmission delays using a 25 kHz radio channel

Transmission delays without FEC-function (Forward Error Correction).

Number of bytes sent

Bps

100

500

1200

4800

9600

19200

38400

102

Delays are in milliseconds and with a 10% marginal.

100

120

1 10 100 500

Delay / ms

Number of Bytes

25 kHz radio channel without error correction

1200

4800

9600

19200

38400

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104

Transmission delays with FEC-function (Forward Error Correction).

Number of bytes sent

Bps

100

500

1200

4800

9600

19200

38400

185

Delays are in milliseconds and with a 10% margin.

100

120

140

160

180

200

1 10 100 500

Delay / ms

Number of Bytes

25 kHz radio channel with error correction

1200

4800

9600

19200

38400