Teledesign Systems TS4000C Radio Modem with 3422 Transceiver User Manual General Information

Teledesign Systems Inc Radio Modem with 3422 Transceiver General Information

Contents

General Information

Type Acceptance Information for TS4000 Radio Modem with 3422 Transceiver
Proposed FCC ID JWFTS4000C
Teledesign Systems, Inc Confidential Information Page 1
PURPOSE
The purpose of this document is to provide information in support of type acceptance testing and
report generation in pursuit of a Grant of Equipment Authorization under FCC Parts 15 and 90 and
Industry Canada RSS-119, RSS-210 and ICES-003 for Teledesign’s TS4000 Radio Modem.
INTRODUCTION
The TS4000 is a high-speed radio modem that consists of a modem board, radio transceiver
board and metal enclosure. The radio transceiver board connects to the modem board with a
flexible printed circuit.
Radio Transceiver Board
The radio transceiver board for this application is an E.F. Johnson DL3422. This device is being
used without any modifications. The DL3422 has received FCC type acceptance with an FCC ID
of ATH2423422-007. All circuit descriptions and details for the radio transceiver can be found in
the type acceptance document for the DL3422. A copy of this has been included with this
application. The radio transceiver is available in a frequency range from 132-174 MHz and
includes a temperature stable reference oscillator with a frequency stability of ± 2.5 PPM.
Modem Board
The modem board provides the serial data interfaces that the user’s equipment interfaces to. The
modem board also controls the operation of the radio transceiver. This control includes
controlling the radio power and frequency and also controlling the modulation, data rate and
frequency deviation of the transmit signal. Note that it is this transmit signal that defines the
emission bandwidth and spectral efficiency.
Radio Flex Circuit
A flex circuit is used to interconnect the radio transceiver board to the modem board. This flex
circuit is also used to interconnect the serial port 2 connector to the modem board. The J11
interconnecting diagram included with the modem board schematic provides the specific
connections provided by the flex circuit for connecting the radio transceiver to the modem board.
Configuration Software
IBM compatible configuration software is used to control all aspects of configuration, tune up and
test of the TS4000 radio modem.
General Information
Manufacturer: Teledesign Systems Inc.
2635 North First Street, Suite 205
San Jose, CA 95134
408-232-0180
Contact Person: Mark Hubbard
Product Trade Name: TS4000 Radio Modem
Product Model Number: TS4000-05Cff where: ff - indicates frequency range
Proposed FCC ID: FCC ID: JWFTS4000C
Production Plans: Teledesign Systems Inc. plans to produce this product in
quantity (greater than 1) production runs.
Radio Transceiver Manufacturer: E.F. Johnson
Type Acceptance Information for TS4000 Radio Modem with 3422 Transceiver
Proposed FCC ID JWFTS4000C
Teledesign Systems, Inc Confidential Information Page 2
Radio Transceiver Model Number: DL3422
Radio Transceiver Part Number: 242-3422 (± 2.5 PPM frequency stability)
Radio Transceiver FCC ID: ATH2423422-007
Frequency Range: 132 - 174 MHz
Maximum RF Power Rating: 5 watts
RF Power Range: 0.1 - 5.0 watts, software selectable
Method of Modulation: Direct FM
Types of Modulation: 4 Level FSK
GMSK with BT = 0.3
GMSK with BT = 0.5
Type of Emissions: 20K0F1D (multi-bandwidth mode)
16K0F1D (multi-bandwidth mode)
11K2F1D (single bandwidth mode)
6K00F1D (for subparts 90.63(d)(7), 90.65(c)(18),
90.67(c)(14), 90.73(d)(13), 90.75(c)(19)
and 90.79(d)(6) only).
Emission Designator Calculations:
Modulation Types:
The TS4000 is designed to use three modulation types: 4 level FSK, GMSK with a BT=0.5 and
GMSK with a BT=0.3. The 4 level FSK modulation is provided to allow a high spectral efficiency
for a given channel bandwidth. The GMSK modulations are provided in order to be compatible
with other products and data communications standards.
Channel Bandwidths:
Our goal is to certify the TS4000 at four different channel bandwidths: 20K0, 16K0, 11K2 and
6K00 (the use of the 6K00 bandwidth is limited to the subparts shown above). This is to allow the
TS4000 to be setup for the most efficient operation for a given channel bandwidth that a user is
licensed for.
4 Level FSK 20K0F1D:
Channel Baud Rate (B) = 32000 bps
Modulation Frequency (M) = B (1/8) = 4000 Hz
Peak Deviation (D) = 6000 Hz
Bandwidth Calculation = 2 (D) + 2 (M)
Bandwidth Calculation = 2 (6000) + 2 (4000)
Bandwidth Calculation = 12000 + 8000
Bandwidth Calculation = 20000 or 20K0
16K0F1D:
Channel Baud Rate (B) = 24000 bps
Modulation Frequency (M) = B (1/8) = 3000 Hz
Type Acceptance Information for TS4000 Radio Modem with 3422 Transceiver
Proposed FCC ID JWFTS4000C
Teledesign Systems, Inc Confidential Information Page 3
Peak Deviation (D) = 5000 Hz
Bandwidth Calculation = 2 (D) + 2 (M)
Bandwidth Calculation = 2 (5000) + 2 (3000)
Bandwidth Calculation = 10000 + 6000
Bandwidth Calculation = 16000 or 16K0
11K2F1D:
Channel Baud Rate (B) = 15000 bps
Modulation Frequency (M) = B (1/8) = 1875 Hz
Peak Deviation (D) = 3750 Hz
Bandwidth Calculation = 2 (D) + 2 (M)
Bandwidth Calculation = 2 (3750) + 2 (1875)
Bandwidth Calculation = 7500 + 3750
Bandwidth Calculation = 11250 or 11K2
6K00F1D:
(for subparts 90.63(d)(7), 90.65(c)(18), 90.67(c)(14),
90.73(d)(13), 90.75(c)(19) and 90.79(d)(6)).
Channel Baud Rate (B) = 4800 bps
Modulation Frequency (M) = B (1/8) = 600 Hz
Peak Deviation (D) = 1800 Hz
Bandwidth Calculation = 2 (D) + 2 (M)
Bandwidth Calculation = 2 (1800) + 2 (600)
Bandwidth Calculation = 3600 + 1200
Bandwidth Calculation = 4800 or 4K80
GMSK with BT = 0.3 20K0F1D:
Channel Baud Rate (B) = 19200 bps
Modulation Frequency (M) = B (1/3) = 6400 Hz
Peak Deviation (D) = 3600 Hz
Bandwidth Calculation = 2 (D) + 2 (M)
Bandwidth Calculation = 2 (3600) + 2 (6400)
Bandwidth Calculation = 7200 + 12800
Bandwidth Calculation = 20000 or 20K0
16K0F1D:
Channel Baud Rate (B) = 19200 bps
Modulation Frequency (M) = B (1/3) = 6400 Hz
Peak Deviation (D) = 1600 Hz
Bandwidth Calculation = 2 (D) + 2 (M)
Bandwidth Calculation = 2 (1600) + 2 (6400)
Bandwidth Calculation = 3200 + 12800
Bandwidth Calculation = 16000 or 16K0
11K2F1D:
Channel Baud Rate (B) = 9600 bps
Modulation Frequency (M) = B (1/3) = 3200 Hz
Peak Deviation (D) = 2400 Hz
Bandwidth Calculation = 2 (D) + 2 (M)
Bandwidth Calculation = 2 (2400) + 2 (3200)
Bandwidth Calculation = 4800 + 6400
Bandwidth Calculation = 11200 or 11K2
6K00F1D:
(for subparts 90.63(d)(7), 90.65(c)(18), 90.67(c)(14),
90.73(d)(13), 90.75(c)(19) and 90.79(d)(6)).
Type Acceptance Information for TS4000 Radio Modem with 3422 Transceiver
Proposed FCC ID JWFTS4000C
Teledesign Systems, Inc Confidential Information Page 4
Channel Baud Rate (B) = 2400 bps
Modulation Frequency (M) = B (1/3) = 800 Hz
Peak Deviation (D) = 1500 Hz
Bandwidth Calculation = 2 (D) + 2 (M)
Bandwidth Calculation = 2 (1500) + 2 (800)
Bandwidth Calculation = 3000 + 1600
Bandwidth Calculation = 4600 or 4K60
GMSK with BT = 0.5 20K0F1D:
Channel Baud Rate (B) = 14000 bps
Modulation Frequency (M) = B (1/2) = 7000 Hz
Peak Deviation (D) = 3000 Hz
Bandwidth Calculation = 2 (D) + 2 (M)
Bandwidth Calculation = 2 (3000) + 2 (7000)
Bandwidth Calculation = 6000 + 14000
Bandwidth Calculation = 20000 or 20K0
16K0F1D:
Channel Baud Rate (B) = 10000 bps
Modulation Frequency (M) = B (1/2) = 5000 Hz
Peak Deviation (D) = 3000 Hz
Bandwidth Calculation = 2 (D) + 2 (M)
Bandwidth Calculation = 2 (3000) + 2 (5000)
Bandwidth Calculation = 6000 + 10000
Bandwidth Calculation = 16000 or 16K0
11K2F1D:
Channel Baud Rate (B) = 7200 bps
Modulation Frequency (M) = B (1/2) = 3600 Hz
Peak Deviation (D) = 2000 Hz
Bandwidth Calculation = 2 (D) + 2 (M)
Bandwidth Calculation = 2 (2000) + 2 (3600)
Bandwidth Calculation = 4000 + 7200
Bandwidth Calculation = 11200 or 11K2

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