ETC CT1487MFP

THIS DOCUMENT IS FOR MAINTENANCE
PURPOSES ONLY AND IS NOT
RECOMMENDED FOR NEW DESIGNS
CT1487M/CT1589M
OCTOBER 1991
3122-1.2
CT1487M/CT1589M
MIL-STD-1553 LOW POWER SINGLE AND DUAL TRANSCEIVERS
FEATURES
GENERAL DESCRIPTION
■ Available in ±15V (CT1487M) and ±12 V (CT1589M)
versions
The CT1487M/CT1589M family of single and dual
transceivers is a second generation series incorporating
monolithic bipolar devices for improved reliability and
producibility. For thermal considerations, the drive stage
transistors are “off” the bipolar array. Input/output signals
are compatible with both MIL-STD-1553A and B systems.
■ AC interstage coupling prevents static burnout
■ Receiver filtered to improve S/N ratio of system
■ Dissipates only 1.3 watt total at 25% transmitting
duty cycle (dual unit - 1.8 watts total). 100% duty
cycle permissible at 125°C case temperature
DETAILED DESCRIPTION
■ 20 mV typical output offset
RECEIVER DESCRIPTION
■ Meets MIL-STL-1553A/B
The Receiver section accepts bi-phase differential data
at the input and produces two TTL signals at the output.
The outputs are RX DATA OUT and RX DATA OUT and
represent positive and negative excursions, respectively,
of the input beyond a predetermined threshold. See Figure
2 for receiver logic waveforms.
■ Available to Standard Military Drawings (see
Ordering Information)
■ 24 pin double dip package or flat pack for single unit
■ 36 pin double dip package or flat pack for
dual unit
■ TTL compatible
Note: All data shown is for a single transceiver unless
otherwise noted. Dual transceivers are two completely
independent units in a common package.
The positive and negative thresholds are designed for
optimum word error rate. The receiver begins to detect
Data Bus signals (1 MHz, sinusoidal) that exceed 0.9 volt
nominal peak-to-peak when used with the specified
transformer. See Figure 4 for typical input/output
connections.
If the RECEIVER STROBE input is LOW, the RX DATA
OUT and RX DATA OUT are inhibited. If unused, a 2Kohm pullup to +5V is recommended.
Note: See ORDERING INFORMATION for units with
inverted outputs. (Pg 7)
Figure 1: Functional Diagram, CT1487M
1
CT1487M/CT1589M
DRIVER DESCRIPTION
The Driver section accepts complementary TTL data at
the input. When coupled to the Data Bus with the specified
transformer (isolated on the Data Bus side with 55-ohm
fault isolation resistors and loaded by two 70-ohm
terminations plus additional receivers), the Data Bus signal
produced is 6.8 volts nominal peak-to-peak (at point A,
Figure 4).
When both TX DATA IN and TX DATA IN inputs are
both held LOW or held HIGH, the driver output becomes a
high impedance and is removed from the line. In addition,
an overriding TX INHIBIT input takes priority over the
condition of the data inputs and disables the driver. See
Figure 3 for the driver logic waveforms.
TX DATA IN and TX DATA IN inputs must be
complementary waveforms of 50% average duty cycle and
with less than 15 ns skew between them.
CHARACTERISTICS
ABSOLUTE MAXIMUM RATINGS
Power supply voltage (V cc)
CT1487
−0.3 to +18.0V
CT1589
−0.3 to + 18.0V
Power supply voltage (V ee)
+0.3 to −18.0V
+0.3 to −18.0V
Power supply voltage (V ccl)
−0.3 to +7.0V
−0.3 to +7.0V
−0.3 to +5.5V
−0.3 to +5.5V
± 20 V (40 V p-p)
± 20 V (40 V p-p)
Receiver input voltage (RX DATA IN or
RX DATA IN)
± 15 V
± 15 V
Driver output current (TX DATA OUT or
TD DATA OUT)
+200 mA
+300 mA
Transmission duty cycle at T c = 125°C
Operating case temperature range (Tc)
100%
−55 to +125°C
100%
−55 to +125°C
Logic input voltage (RECEIVER STROBE,
INHIBIT, TX DATA IN, TX DATA IN)
Receiver differential input
(RX DATA IN, RX DATA IN)
POWER AND THERMAL DATA, TOTAL HYBRID (DRIVER AND RECEIVER)
CT1487M
PARAMETER/CONDITION
CT1589M
SYMBOL
MIN
TYP
MAX
MIN
TYP
MAX
UNIT
Vcc
Vee
Vccl
14.25
-14.25
4.5
15
-15
5
15.75
-15.75
5.5
11.4
-11.4
4.5
12
-12
5
12.6
-12.6
5.5
V
V
V
Power dissipation of most critical
(hottest) device in hybrid during
continuous transmission
(100% duty cycle)
Pc
Note 1
350
500
Note1
350
500
mW
Thermal resistance, most critical device
Øjc
50
50
°C/W
Junction to case temperature rise of
most critical device at 100% duty
cycle transmission
Tjc
25
25
°C
Power supply voltages
Total supply current “standby” mode, or
transmitting at less than 1% duty cycle
(e.g. 20 µs of transmission every 2ms
or longer interval)
Icc
I ee
I ccl
Note 2
Note 2
S*
15
25
32
Total supply current transmitting
at 1MHz into a
DUTY CYCLE
35-ohm load at
point A in Figure 4
25%
Icc25
Note 3
55 70
Icc100
Note 3 185 200 235 260 Note 3
100%
D*
30
50
64
S*
22
35
45
D*
44
70
90
Note 2
Note 2
S*
15
25
32
75 100
Note 3
70 85
* S = single unit, D = dual unit (one unit transmitting)
Notes:
2
1. Decreases linearly to zero at zero duty cycle.
2. I ee and Iccl limits do not change with mode of operation or duty cycle.
3. Decreases linearly to applicable “standby” value at zero duty cycle.
D*
30
50
64
S*
22
35
45
D*
44
70
90
mA
mA
mA
95 120
mA
224 240 290 315
mA
CT1487M/CT1589M
ELECTRICAL CHARACTERISTICS, RECEIVER SECTION (See Figure 2)
PARAMETER/CONDITION
SYMBOL
MIN
TYP
MAX
UNIT
Differential input impedance DC to 1MHz
Zin
9K
ohms
Differential voltage range
Vidr
± 20V
Vpeak
Input common mode voltage range
Vicr
± 10V
Vpeak
CMRR
40
dB
INPUT CHARACTERISTICS
Common mode rejection ratio (from point A, Figure 4)
STROBE characteristics
(Logic "0" inhibits output)
"0" input current (vs = 0.4 V)
lil
-1
mA
"1" input current (Vs = 2.7 V)
lil
40
µA
"0" input voltage
Vil
0.7
V
"1" input voltage
Vih
2
Threshold characteristics (sine wave at 1MHz)
NOTE: Threshold voltages refer to point A, Figure 4.
Vth1
0.8
1.1
Vp-p
Filter characteristics
2 MHz
Vth2
1.5
8
Vp-p
(sine wave input)
3 MHz
Vth3
5
"1" state (lsource = 400 µA)
Voh
2.5
"0" state (lsink = 4 mA)
NOTE: With receiver input below threshold both RX DATA
OUT and RX DATA OUT remain in "0" state.
Voh
Delay (average) from differential input zero crossings to
RX DATA OUT and RX DATA OUT output 50% points
tDRX
V
Vp-p
OUTPUT CHARACTERISTICS
3.4
0.5
340
450
ns
Figure 2: Receiver Logic Waveforms (for Inverted Data Output, see Ordering Information)
3
CT1487M/CT1589M
ELECTRICAL CHARACTERISTICS, DRIVER SECTION (See Figure 3)
PARAMETER/CONDITION
SYMBOL
MIN
TYP
MAX
UNIT
INPUT CHARACTERISTICS
"0" input current (Vin = 0.4 V)
lil
−1
mA
"1" input current (Vin = 2.7 V)
lih
80
µA
"0" input voltage
Vil
0.7
V
"1" input voltage
Vih
2
V
Delay from TX INHIBIT (0 → 1) to inhibited
output impedance
tDXOFF
150
225
ns
Delay from TX INHIBIT (1 → 0) to active
output impedance
t DXON
100
150
ns
10
mVp-p
Differential output noise
Vnoi
Differential output impedance (inhibited) at 1 MHz
Zoi
8K
Differential output level at point B, Figure 4 (145-ohm load)
Vo
26
28
35
Vp-p
Rise and fall times (10%–90% of p-p output)
tr
100
160
300
ns
ohms
OUTPUT CHARACTERISTICS
Output offset at point A in Figure 4 (35-ohm load)
2.5 µs after mid-bit crossing of parity bit of last word
of a 660 µs message
Vos
±20
±75
mV peak
Delay from 50% point of TX DATA IN or TX DATA IN
to zero crossing of differential output
tDTX
100
200
ns
Figure 3: Driver Logic Waveforms
4
CT1487M/CT1589M
Figure 4: Typical Input/Output Connections
Figure 5: Typical Internal Power Dissipation (Total Hybrid)
5
CT1487M/CT1589M
Figure 6: Mechanical Outline for the “MP” Package
6
Figure 7: Mechanical Outline and Pinouts (Single Unit)
CT1487M/CT1589M
Figure 8: Mechanical Outline and Pinouts (Dual Unit)
7
CT1487M/CT1589M
ORDERING INFORMATION
Some of these devices are available to Standard Military
Drawings. Contact Customer Services at one of the
addresses below for more information.
“Inverted Receiver Data Output” refers to the logic
state of RX DATA OUT and RX DATA OUT when the bus
is quiet. All part numbers with the “I” suffix produce logic
“1” at the receiver outputs for quiet bus.
CT1487M
–
±15 V Single Unit Plug-in Package
CT1589M
–
±12 V Single Unit Plug-in Package
CT1487MP
–
±15 V Single Unit Plug-in Package
CT1589MP
–
±12 V Single Unit Plug-in Package
CT1487MFP
–
±15 V Single Unit Flat Pack
CT1589MFP
–
±12 V Single Unit Flat Pack
CT1487MI
–
±15 V Single Unit Plug-in Package,
Inverted Receiver Data Outputs
CT1589MI
–
±12 V Single Unit Plug-in Package,
Inverted Receiver Data Outputs
CT1487MIFP
–
±15 V Single Unit Flat Pack,
Inverted Receiver Data Outputs
CT1589MIFP
–
±12 V Single Unit Flat Pack,
Inverted Receiver Data Outputs
CT1487D
–
±15 V Dual Unit Plug-in Package
CT1589D
–
±12 V Dual Unit Plug-in Package
CT1487DI
–
±15 V Dual Unit Plug-in Package,
Inverted Receiver Data Outputs
CT1589DI
–
±12 V Dual Unit Plug-in Package,
Inverted Receiver Data Outputs
CT1487DFP
–
±15 V Dual Unit Flat Pack
CT1589DFP
–
±12 V Dual Unit Flat Pack
CT1487DIFP
–
±15 V Dual Unit Flat Pack,
Inverted Receiver Data Outputs
CT1589DIFP
–
±12 V Dual Unit Flat Pack,
Inverted Receiver Data Outputs
HEADQUARTERS OPERATIONS
CUSTOMER SERVICE CENTRES
GEC PLESSEY SEMICONDUCTORS
Cheney Manor, Swindon,
Wiltshire, SN2 2QW, United Kingdom.
Tel: (0793) 518000
Fax: (0793) 518411
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GEC PLESSEY SEMICONDUCTORS
P.O. Box 660017,
1500 Green Hills Road, Scotts Valley,
California 95067-0017,
United States of America.
Tel: (408) 438 2900
Fax: (408) 438 5576
Fax: (0793) 518582
These are supported by Agents and Distributors in major countries world-wide.
© GEC Plessey Semiconductors 1991 Publication No. 3122-1.2 October 1991
TECHNICAL DOCUMENTATION - NOT FOR RESALE. PRINTED IN UNITED KINGDOM.
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any order or contract nor to be regarded as a representation relating to the products or services concerned. No warranty or guarantee express or implied is made regarding the
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8
significant
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