Ritron RIT39-46006 UHF Modem Module User Manual Rev

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Rev. 07/14
RITRON DTXM SERIES II DTXM-X60 FAMILY
PROGRAMMABLE WIRELESS FM
MODEM TRANSCEIVERS
VHF/220 MHz/340-400 MHz/UHF
6.25 kHz/12.5 kHz/25 kHz Channels
Multiple Protocol
1
INTRODUCTION
1.1
GENERAL
The DTX Plus Series II modem is a wireless modem designed to operate on the frequency bands at VHF,
UHF, and 220 MHz. It supports over-the-air data rates of 4800 bps in a 5.0/6.25/7.5 kHz channel, 9600 bps
in a 12.5/15 kHz channel, and 19.2 kbps in a 25/30 kHz channel. The modem supports three protocols, the
legacy packet protocol of the DTXM-X54 series, a small-packet streaming protocol, and a no-overhead
streaming protocol with no error detection/correction. Besides offering data communications, the DTX Plus
modem includes voice transceiver audio input and outputs. The complete modem transceiver is housed in
the standard DTX Plus case, resulting in a light, compact package.
1.2
MODEL IDENTIFICATION
The DTX Plus modem has a part number in the form of “DTXM-A60-BCDEF”
Where:
A is the major frequency band designator:
1=VHF (136-174 MHz)
2=217-245 MHz
3=340-400 MHz
4=UHF (400-520 MHz)
B is the sub-band designator:
G=340-360 and 400-420
A=420-440
B=430-450
0=136-174, 217-245, 360-380, and 450-470
M=380-400
C=470-490
T=490-512
C is the connector designator:
B=BNC connector
M= MCX connector
S=SMA connector
D designates the channel bandwidth:
S=6.25 kHz
N=12.5 kHz
W=25 kHz
E designates the maximum power level:
3=3 watts
6=6 watts
9=10 watts
F designates the regulator option
I=Internal regulator (10-16 VDC operation with regulated RF power amplifier)
D=No regulator (7.5 VDC operation)
L=RF PA is unregulated, but the remainder of the modem is regulated (10-watt versions)
Example: A DTXM-460-OBN6I would be a UHF module for operation between 450 and 470 MHz with a
BNC RF connector, narrow (12.5 kHz channel spacing) IF bandwidth, 6 watts maximum output power, and
an internal regulator to allow operation from 10 to 15 volts.
1.3
FCC REGULATIONS
1.3.1
Licensing
The FCC requires that the radio owner obtain a station license for his radio before using the equipment to
transmit, but does not require an operating license or permit. The station licensee is responsible for proper
operation and maintenance of his radio equipment, and for ensuring that transmitter power, frequency and
deviation are within the limits specified by the station license. This includes checking the transmitter
frequency and deviation periodically using appropriate methods.
1.3.2
Equipment Authorization (Certification)
At the time of this publication, March, 2014, none of the DTXM-X60 series products have been
certified and thus, cannot be operated in those bands/countries that require an equipment
authorization.
This device has not been authorized as required by the rules of the Federal Communications
Commission. This device is not, and may not be, offered for sale or lease, or sold or leased, until
authorization is obtained.
1.3.3
Radio Frequency Exposure
The FCC, with its action in General Docket 79-144, March 13, 1985, adopted a safety standard for human
exposure to radio frequency electromagnetic energy emitted by FCC regulated equipment.
The DTXM product family has been evaluated for compliance with the maximum exposure limits for RF
energy at the maximum power rating of the unit and with the only antenna sold for use with this product by
RITRON. To ensure compliance with the General Population/Uncontrolled maximum exposure limits,
please observe the following:
When the Ritron RAM-1545 remote magnetic mount antenna is used, mount the antenna in a location that
will ensure that all persons will be located away from the antenna by the following minimum distances:
Model
Minimum Distance
DTXM-160-0BX6
DTXM-260-0BX6
DTXM-460-0BX3
DTXM-460-0BX6
DTXM-460-0BX9
13.7 in. (34.8 cm)
7.9 in. (20.0 cm)
7.9 in. (20.0 cm)
8.3 in. (21.0 cm)
Antennas other than the Ritron RAM-1545 must be tested with the DTXM for RF exposure compliance in the
environment in which it is to be used per the FCC’s OET Bulletin 65, Edition 97-01 or Industry Canada RSS102.
2
SPECIFICATIONS
2.1
GENERAL
FCC Rule Parts
IC Rule Parts
Data rate (bps)
6.25 kHz channel
12.5 kHz channel
25 kHz channel
Modulation
Voice
Data
Over-the-Air Protocols
Number of Channels
Operating Bandwidth
VHF
220 MHz
340-400 MHz
400-430 MHz
UHF
Synthesizer Step Size
VHF
220 MHz
300-430 and UHF
Emissions Bandwidth
Voice
Not allowed
12.5 kHz channels
25 kHz channels
Data
6.25 kHz channels
12.25 kHz channels
25 kHz channels
Frequency Stability
-30°C to +60°C
-30°C to +75°C
Supply Voltage
D-version
I, L-versions
RF Connector
Power/Data Connector
Dimensions (LxWxH)
Weight
Indicators
2.2
90
RSS-119
4800 bps
9600 bps
19,200 bps
Direct FM
4FSK
Ritron Proprietary
38 MHz
28 MHz
20 MHz
30 MHz
20 MHz
2.5 kHz
2.5/3.125 kHz
5.0/6.25 kHz
10.0 kHz
15.0 kHz
4.0 kHz
8.0 kHz
16.0 kHz
+/- 1.0 ppm
+/- 1.5 ppm
7.5+/-0.5 VDC
11-16 VDC
BNC (optional MCX and SMB)
15-pin subminiature D-type
3.6”x 2.3” x1.0”
6 oz
Transmit LED, Receive LED
TRANSMITTER
RF Output Power
VHF,220 MHz, 300-430 MHz
UHF
RF Load Impedance
PTT attack time
Spurious and Harmonics
1-6 watts
1-3 watts, 1-6 watts, 2-10 watts
50 ohms resistive, VSWR 1.5:1 or less
10 ms max.
-25 dBm max.
FM Hum and Noise
6.25 kHz channel
12.5 kHz channel
25 kHz channel
Current Drain
1 watt
2 watts
6 watts
10 watts
2.3
35 dB min.
40 dB min.
45 dB min.
1.1 A max.
1.6 A max.
2.2 A max.
2.6 A max.
RECEIVER
Sensitivity
Voice (12 dB SINAD)
Data (10-3 BER)
Adjacent Channel Selectivity
6.25 kHz channel
12.5 kHz channel
25 kHz channel
Spurious and Image Rejection
IMD Rejection
FM Hum and Noise
6.25 kHz channel
12.5 kHz channel
25 kHz channel
Conducted Emissions
Squelch Attack Time
Receive Current Drain
0.25 uV max.
0.30 uV max.
50 dB min.
60 dB min.
70 dB min.
70 dB min.
67 dB min.
35 dB min.
40 dB min.
45 dB min.
-57 dBm max.
15 ms max.
120 mA max.
3
DTXM I/O CONNECTOR AND INDICATORS
3.1
15-PIN I/O CONNECTOR
Connector Pinout
Pin
Name
Description
10
11
12
13
14
15
AUDIO_IN
AUDIO_OUT
SPEAKER
A/B
NC
Supply
NC
RD
TD
CTS
DSR
TEST
CD
RTS
GND
Input
Output
Output
Input
Input
Output
Output
Input
Output
Output
Input
Output
Input
Comments
Input for Audio to be transmitted in Voice mode
Line level receiver audio output
Receiver audio output to drive a speaker
Channel 1/2 or High/Low power
Not Used
DC Power + input connects here to power unit
Receiver Alignment-Do NOT CONNECT
RS-232 data output from modem
RS-232 data input to the modem
RS-232 clear to send output from modem
RS-232 data set ready output from modem
Used for PTT in voice mode
Carrier detect
RS-232 request to send input to modem
System ground, - power supply input connects here
Pinout Description
Pin 1
AUDIO_IN
This is the input for signals to be transmitted when the unit to be operated in the voice/analog mode. The
actual transmission is initiated by asserting the TEST pin (pin 12). The polarity and modulation sensitivity
for signals at this pin can be set via the programmer. The input resistance at this pin is greater than 10 k
and is AC coupled. Note that this pin is only active on the 12.5 kHz channel bandwidth models, NOT on
the 6.25 kHz channel bandwidth models.
Pin 2
AUDIO_OUT
Amplified, buffered, and filtered receiver audio is present at this output. The audio level can be adjusted
via the programmer as well as the choice of a flat vs de-emphasized frequency response. The presence of
audio at this pin is controlled by the squelch (carrier detect) settings, also adjustable via the programmer.
Pin 3
SPEAKER
This output is similar to the AUDIO_OUT signal above except that it is always de-emphasized and is able
to drive an 8-ohm speaker load. The level is adjustable via the programmer with the same setting as that
which sets the AUDIO_OUT level.
Pin 4
A/B
Depending on how it is programmed via the programmer, this pin can either be a channel A/channel B
selection pin or a high/low transmit power selection pin. This pin has an internal pullup resistor to +5 volts
and assumes a high (channel A or high power) state when left unconnected.
Pin 5
Not Used
Pin 6
SUPPLY
This is the positive power supply input for the modem.
Pin 7
Receiver Alginment
This pin is the output pin of the modem IC’s input operational amplifier. It is used during alignment to set
the receiver gain and DC offset for proper modem IC receiver decoding. This pin must be left
unconnected by the user!
Pin 8
RD (Receive Data)
RS-232 data to be received from the modem is available at this pin. The data are at normal RS-232 levels
and are transmitted from the modem to be received by the host computer or other device connected to
the modem.
Pin 9
TD (Transmit Data)
RS-232 data to be transmitted to the modem should be presented to this pin. The data should be at normal
RS-232 levels and are transmitted from the host computer or other device to the modem.
Pin 10
CTS (Clear to Send)
This RS-232 output pin is asserted by the modem as a response to an assertion of the RTS pin when it is
ready and able to receive data from the host computer or device.
Pin 11
DSR (Data Set Ready)
This RS-232 output pin is asserted by the modem when it is powered-up. It indicates that the modem is
actually connected, although not necessarily ready to receive data. The polarity (active low/active high) is
programmable via the programmer.
Pin 12
TEST (Voice mode PTT)
This pin in used to key the transmitter. When asserted (taken low), this pin activates the voice/analog
transmit audio path and keys the transmitter, or transmits data test patterns.
Pin 13
CD (Carrier Detect)
This pin is asserted by the modem when the receiver has detected a carrier. The RF level for CD assertion
is set via the programmer. Note that the modem demodulation circuitry does not actually use this signal to
determine that a valid data packet has been received. The polarity (active low/active high) is
programmable via the programmer
Pin 14
RTS (Request to Send)
This RS-232 input pin is asserted by the host computer or device to indicate that it has data to be
transmitted by the modem. If the modem is able to accept the data, the CTS pin will be asserted in
response.
Pin 15
GND (Ground)
The system ground common point and negative connection for the power supply input.
3.2
INDICATORS
The DTXM Modem has two indicators on the side of the unit, one green RX LED and one red TX LED.
They function as follows:
GREEN RX LED-This LED can be programmed to be illuminated under a variety of conditions. The
choices are: Never (Off), whenever power is applied (Power On), when receiving, whether or not an actual
signal is on the frequency (RX Synthesizer Lock), and when receiving and an actual data packet is being
received (RX Data). In typical applications, either RX Synthesizer Lock or RX Data is selected.
RED TX LED-This indicator can be programmed to be illuminated when the modem is transmitting,
regardless of whether the unit is transmitting data or voice or to be never illuminated.
4
OPERATION
4.1
CHANNEL SELECTION
Via the 15-pin connector, the DTXM supports one channel if the A/B pin (pin 4) is programmed for
high/low power and two channels if the A/B pin is programmed as a channel select input. Channel A is set
when the A/B pin is activated and the A/B pin is in the logic high state i.e. above 2.0 volts DC or left
unconnected (There is an internal pullup resistor on the A/B pin). Channel B is set when the A/B pin is
activated and the A/B pin is in the logic low state i.e. below 0.5 volts DC. If the A/B pin is programmed
for high/low power, channel A is always selected.
A change in the channel selection in receive will cause the receiver to operate on the new channel. In
transmit, however, the channel selection is only checked only at the beginning of a transmission. Changes
in channel during transmit will not change the transmit operating channel of the unit until the unit is cycled
from transmit to receive and back to transmit.
4.2
POWER SUPPLY VOLTAGE
The DTXM-160, DTXM-260, DTXM-360 units and the 3 and 6-watt DTXM-460 units use 7.5 volt RF
power modules. Two supply voltage options are available for these units depending upon whether the
control/loader board has a regulator installed. If a regulator is not installed, the voltage should be 7.5 volts
+/-10 %. This voltage should be “clean” and preferably regulated since the RF power module is powered
directly from this source. Variations in voltage will cause variations in transmitted output power.
Conversely, if the control/loader board has a regulator installed, the supply voltage can be at any voltage
between 11 and 16 volts. The RF power module in the 10 watt DTXM-460 unit requires at least 12 volts to
achieve 10 watts, although voltages as high as 15 may be used. Since the module is powered directly from
this voltage, the supply should be “clean” and, preferably, regulated. The output power will vary with
supply voltage. Switching power supplies can be used, but in models without the internal regulator, care
must be taken that the output waveform is low noise. Also, the module antenna should never be placed
near an unshielded switching power supply.
4.3
CURRENT DRAIN VS SUPPLY VOLTAGE
The current drain of the module is a function of the supply voltage, the RF output in transmit and the
regulator option. The internal 7.5-volt regulator is a switching type such that the current drain actually
decreases with an increase in supply voltage. Typical current drain values are shown in the table below:
Receive Mode
Supply Voltage
7.5 V
11.0 V
12.5 V
16.0 V
Internal Regulator
No
Yes
Yes
Yes
Current Drain
130 mA
100 mA
90 mA
75 mA
Transmit Mode – 1 watt output power
Supply Voltage
7.5 V
11.0 V
12.5 V
16.0 V
Internal Regulator
No
Yes
Yes
Yes
Current Drain
1.2 A
0.9 A
0.7 A
0.5 A
Warning: Although the output power can be set as low as 1 watt, and the module is certified as low
as 1 watt, operation below 2.5 watts output power is not recommended. At low power levels, the
output power can vary by 50% or more with variations in ambient temperature.
Transmit Mode – 3 watt output power
Supply Voltage
Internal Regulator
7.5 V
11.0 V
12.5 V
16.0 V
No
Yes
Yes
Yes
Current Drain
1.8 A
1.4 A
1.2 A
0.9 A
Note: The 3-watt version of the DTXM-460 operates more efficiently than the 6-watt version with power
reduced to 3 watts. Therefore, the current drain values for the 3-watt version of the DTXM-460 will be
about 80% of the values shown above.
Transmit Mode – 6 watt output power
Supply Voltage
Internal Regulator
7.5 V
11.0 V
12.5 V
16.0 V
No
Yes
Yes
Yes
Current Drain
2.5 A
2.1 A
2.0 A
1.5 A
Transmit Mode – 10 watt output power (10-watt version of DTX-460 only)
4.4
Supply Voltage
Internal Regulator
Current Drain
13.5 V
RF PA is unregulated
2.5 A
DUTY CYCLE/KEY-DOWN LIMITATIONS
The major heat generating component within the modules is the RF power amplifier which has a maximum
temperature limit that should not be exceeded. In addition, the temperature within the module itself must
be kept below the maximum temperature of the reference oscillator to ensure that regulatory frequency
stability limits are observed. As a result, depending upon the RF output power, the supply voltage, and the
ambient temperature, limits upon the average transmit duty cycle and the maximum continuous transmitter
on time exist. These limits are summarized below for operation in still air:
Ambient Temperature (C)
Duty Cycle (%)
Key-Down Time (s)
3 watts RF output
25
50
30
45
10
6 watts RF output
25
50
20
30
10 watts RF output
25
50
20
15
Blowing air across the unit and/or adding a heat sink to the rear of the unit where the PA module is located
can significantly improve the duty cycle/key-down times. Ritron offers an option where the case screws at
the rear of the module are longer allowing heat sinks to be attached. Also, a fan option is available from
Ritron which can significantly increase the duty cycle, up to 100% at room temperature in some cases.
Contact Ritron for additional information on these options and special instructions on attaching heat sinks
without compromising the mechanical integrity of the RF PA module.
4.5
INSTALLATION
The DTXM modem has two connectors, a BNC for the RF (Antenna) connection and a 15-pin Dsubminiature for the data/programming interconnection. The BNC connector should be connected to a
suitable antenna or RF dummy load or attenuator, depending upon the installation. If an antenna is
connected, it should be placed at least 10 ft. away from the radio itself to prevent RF interference. Also, any
antenna must present a good 50-ohm RF load (low VSWR) at the operating frequency. The 15-pin
connector is usually used with a Ritron programming cable which provides for DC power connections and
a serial connection for programming and for the data to transmitted and received.
5.0
PROGRAMMING THE MODEM
The operating parameters of the DTXM modem can be set and adjusted via the Ritron DTXM-X60 series
programmer, DTXM2-PCPS. Note that the programmer for the previous Ritron wireless modem, i.e. the
DTXM-X54 series will NOT work with this product.
The programming software should be loaded on a host computer by loading the CD-ROM disc into the host
computer’s appropriate drive. The programming software itself should be self-extracting. If it does not load
automatically, it can be manually loaded by running “Setup.exe” on the CD Rom.
The Ritron modem should be connected to the host computer by the 9-pin connector. The red wire in the
cable should be connected to positive supply voltage for the modem while the black should be connected to
the negative side. The voltage itself should be compatible with that required by the modem. In
programming mode, the current required by the modem is about 150 mA and the power supply should be
capable of supplying that current. Note that in transmit, it can be much, much higher, 2 to 3 amperes is not
unusual. It is possible to transmit with the programmer program running, but the power supply must be able
to supply the necessary current and a suitable RF load must be provided on the BNC connector. Once the
modem is connected to the host computer and a power supply is connected, the programming software
program can be opened and the power supply turned on.The first screen to become visible is the “welcome”
screen shown below:
The button at the upper right is the Programmer Configuration button and is used to set the serial
communications baud rate for communications between the programmer and the host computer. It defaults
to 38400 baud, but can be set to other common serial rates. In addition, if the host computer baud rate is
unknown, the Test Configuration button can be selected to auto-detect the baud rate. Selecting OK
confirms the choice of baud rate.
The other button is used to read the contents of the radio into the programmer so that the current
configuration of the radio can be observed and edited.
5.1
FREQUENCY TAB
Upon selecting the Read Radio button, the Frequency tab is opened as shown below.
This page shows the frequencies programmed into the modem. Depending upon how the A/B pin is
programmed either one or two pairs of frequencies will be displayed. Frequencies can be programmed into
the device by clicking on the appropriate field and typing in the desired frequencies. The frequencies must
be within the operating range of the radio and must be divisible by the synthesizer step size for the
particular model use. In addition, there are five other tabs and five buttons that can be selected. These are
summarized below:
5.2
PAGE TABS
The page tabs show up on all of the pages. Clicking on a tab moves one to that page.
Frequency-as explained above, this page allows the observing and entering of operating frequencies.
The other tabs are shown below and their contents will be detailed in later sections.
General-shows the general operating parameters of the modem.
Modem-shows the modem parameters such as protocol, etc.
Analog-shows the parameters of the analog/voice path.
Summary-shows all of the parameters of the modem on one page.
Restore EE-allows the configuration of the programmed radio modem to be saved.
5.3
BUTTONS
There are five buttons which show up on all of the pages. These are:
Receiving-This is a software (programmer) PTT selection. Selecting this button will put the radio modem
in transmit mode, regardless of the state of the PTT pin. Selecting this button again will return the radio
back to receive.
Monitor- This is a software (programmer) Monitor selection. Selecting this button will unmute
theanalog/voice receiving path of the radio modem. Selecting this button again will return the radio back to
normal squelched operation. Note that if unsquelched operation is selected on the Analog page, this button
will have no effect.
Clone Radio-This allows the radio parameters to be copied into another radio.
Update Radio-Loads the programmer’s parameters into the radio. Note that changes made via the
programmer are NOT permanently saved into the radio until this button is selected. The radio’s behavior
will change as changes are made via the programmer, but will be lost on power-down unless, and
until, this selection is made.
Read Radio- Reads the radio modem’s parameters into the programmer for observation and editing.
5.4
GENERAL TAB PAGE
The General Page is shown below:
The selections are:
A/B Input One or Two Channel-Determines the function of the A/B pin. This pin can be used to control
the power selection, high or low, for one channel, channel A or it can be used to choose between channel A
and channel B, in which case, the output power is high for both.
Comm Port Baud Rate-Determines the baud rate for communications between the data device and the
radio modem. This number should match that shown on the Programmer Configuration screen.
Test Pin Input Logic Level (PTT)-Determines the polarity of the test pin. The test pin is used to put the
radio in transmit in analog/voice mode or to send test patterns in modem mode. This pin has an internal
pullup resistor and thus, assumes a logic high state when not connected. Therefore, active low is the
normal, default setting.
Red LED-Determines the behavior of the Red LED indicator. The choices are that it can be set to never be
illuminated or illuminated when the radio is transmitting.
CD Output Logic Level-Determines the polarity of the CD (Carrier Detect) output pin.
Green LED-Determines the behavior of the Red LED indicator. The choices are for it to never be
illuminated (off), be illuminated whenever the radio is powered (Power On), when the receiver is locked
and receiving (RX Synthesizer Lock), or data/analog information is being received (RX Data). In the latter
mode, the indicator would come on whenever one of two conditions is met, the squelch level (carrier detect
level) is exceeded, even when Squelch is never muted, or when the receive data has detected a valid data
stream.
TX Low Power/TX High Power-This allows setting the RF output power for the two states of the
low/high power pin. The low-power selection corresponds to the low logic level of the pin while the highpower selection corresponds to the high logic level. Note that the high-power selection does not necessarily
have to be greater than the low-power selection. Each is independent of the other and only corresponds to a
state of the power select pin.
Per Channel Values-Summarizes the high and low power settings for the channels used by the radio.
5.5
MODEM TAB PAGE
The modem page allows selecting the parameters of the modem mode operation and is shown below:
The selections are:
Modem Protocol-This selects the over-the-air protocol. The three choices are detailed below:
Low Latency Protocol with no CRC-This is as close to a bit in/bit out protocol which can be
supported by the Ritron radio modem. A synchronization pattern is affixed to the beginning of the
transmitted stream, but after that, each symbol transmitted directly corresponds to two input bits.
No error detection or correction is used within the protocol itself. This protocol provides for the
fastest overall data rate, but sacrifices data accuracy.
Virtual Streaming Protocol-This is similar to the low latency protocol, but the data is divided
into blocks and an error detecting CRC word is added to each block. This word is removed before
the data is passed to the data device on the receiving end. Blocks with errors are not passed on to
the data device.
Protocol 2.00 (Legacy)-This is the protocol used by the DTXM-X54 family. This is a very robust,
packet protocol useful for large data blocks, but not for fast streaming or fast polling. This
protocol is useful when interfacing a system with the legacy Ritron DTXM-X54 family and/or
when data errors cannot be tolerated.
Test Patterns (via Test Pin)-Selecting any of the selections in this box will cause a test pattern to be
transmitted when the Test Pin (PTT) is active. If no selection is made, activating the Test Pin will cause the
radio to transmit in analog/voice mode. The choices are:
Bit Error Rate (BER)-A pn pattern is generated which allows for the computation of bit error
rate, setting deviation, or observing an eye pattern. The pattern is 511 symbols long with no
synchronization symbols and repeats continually. It is a maximal length pattern with feedback taps
at the 5 and 9 bit positions.
Send Test Pattern-A packet which transmit over and over with a constant data structure. This
pattern can be used to test the system in the low latency and streaming modes.
Square Wave Generator-Transmits a 400 Hz square wave. Used to set the deviation and
modulation balance during alignment or to hear the transmitted 400 Hz tone on a receiver or radio
modem in analog/voice mode.
TX Carrier Mode-An unmodulated carrier is transmitted.
Protocol 2.00-The items is this box select the identification parameters used in the legacy 2.00 protocol.
Source Station ID-Source Station ID-Sets the address of the modem itself. It is made up of 4
parts, from most general to most specific: System ID, Group ID, Unit ID, and Sub-unit ID.
Default Destination ID-Sets the destination ID of the intended recipient.
Protocol Mask-The protocol mask determines how close a mask must exist between the modem’s
ID and the destination ID in the message before accepting and outputting to the host the message.
A ‘1’ for any location in the mask requires a perfect match, while a ‘0’ means a ‘don’t care’
situation. This is useful for ‘broadcast’ i.e. one unit transmitting to more than one unit situation.
Note: In broadcast applications, the ‘Acknowledgement after TX’ selection should NOT be
selected to prevent multiple units from responding and interfering with each other. See below.
ConfigurationAcknowledgement required after transmit-When checked, the modem requires an
acknowledgement after each transmission or the transmission will be repeated.
Message Retry Limit and Timeout Time-The amount of time in ms that the modem will
wait for an acknowledgement and the number of times it will repeat a message can be set
in the Message Retry Limits box and the Time Out Time boxes
Dead Carrier before Symbol Sync-The amount of time in ms that an unmodulated carrier
will exist before the beginning of the symbol sync pattern.
Partial Packet Timeout-The amount of time in ms of no data from the data device that
must exist before a packet is formed and transmitted.
5.6
ANALOG TAB PAGE
The analog page allows selection of the analog/voice mode parameters and is shown below:
The selections are:
TX pre-emphasis-Selects whether the external audio signal is pre-emphasized i.e. had its high-frequency
audio content boosted or whether the signal is sent with a flat audio response. Voice signals typically use
pre-emphasis.
RX de-emphasis-Selects whether the external audio output signal is de-emphasized i.e. had its highfrequency content attenuated or whether the signal is outputted with a flat frequency response. Preemphasis and de-emphasis are normally used together.
Busy Channel TX Lockout-This selection will allow a transmission to be inhibited if there is activity on
the receive frequency. This would normally be used when the transmitter and receiver operate on the same
frequency and is used to avoid interference to a transmission already in progress. The presence of activity
of the channel is determined by signals which exceed the Carrier Detect On setting (see below).
CD Output Level-Sets the logic level of the Carrier Detect Output pin.
Squelch Enable-Selects whether signals below the Carrier Detect Off level will be muted (squelched) or
whether all signals are allowed to pass to the audio output pins.
TX Timeout Timer-Selects whether the transmitter in limited in the maximum time that it is allowed to
transmit continuously and how long that time would be. This is designed to avoid overheating the
transmitter when the Test (PTT) pin is taken active for a long time.
Aux Out (RX) Gain-Sets the audio output level for the audio output pins.
Aux In (TX) Gain-Sets the gain, not the maximum deviation, for signals at the audio input pins.
Carrier Detect On (dBm)-Sets the RF signal level in dBm such that the carrier detect pin will go active
and the output audio, if squelch is selected, will go unmute.
Carrier Detect Off (dBm)-Sets the RF signal level in dBm such that the carrier detect pin will go inactive
and the output audio, if squelch is selected, will be muted.
Note: The Carrier Detect On level must be set to be higher (less negative) than the Carrier Detect Off
level.
5.7
SUMMARY TAB PAGE
The summary page summarizes all of the selections from the previous pages and is shown below:
5.8
RESTORE EE PAGE
This page allows the configuration of the radio to be saved for loading into other DTX Series II radio
modems. This page is shown below:
If it is desired to save the current configuration, one of the three boxes should be checked. Besides not
saving a configuration by not checking any option, there are three options: Saving all parameters, saving all
except the squelch and RF power level (useful is the a radio modem already has power and squelch settings
with are to be retained), and an option to convert older DTXM-X54 series products to the configuration of
the Series II modems.

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