AEROFLEX ACT4402

ACT4402 SINGLE TRANSCEIVER
FOR MIL-STD-1553/1760
CIRCUIT TECHNOLOGY
Features
www.aeroflex.com
• +5 / ±15 Volt Supply Operation
• Low Power Dissipation
General Description
• Outstanding MIL-STD-1553 performance
• Superior High Frequency Line Transient and Input
Ripple Rejection
• Input and Output TTL Compatible Design
• Processed and Screened to MIL-STD-883 Specs
• MIL-PRF-38534 Compliant Devices Available
• Replacement for Aeroflex’s 3402 & 2402
• Packaging – Hermetic Ceramic
Available in a 24pin Ceramic Housing which is 21%
smaller than the metal plug-in
■ Non-conductive mounting surface
■ No package glass beads
■ Small size & light weight
■
The Aeroflex Circuit Technology
ACT4402 is a next generation
monolithic transceiver design
which provide full compliance to
MIL-STD-1553A/B
and
1760
requirements in a small ceramic
package
with
low
power
consumption.
The ACT4402 series performs the
front-end
analog
function
of
inputting and outputting data
through a transformer to the
MIL-STD-1553 data bus.
Design of this transceiver reflects
particular attention to active filter
performance. This results in low bit
and word error rate with superior
waveform purity and minimal zero
crossover
distortion.
Efficient
transmitter electrical and thermal
design provides low internal power
dissipation and heat rise at high as
well as low duty cycles.
Transmitter
TX DATA OUT
TX DATA IN
DRIVER
TX DATA IN
ACTIVE
FILTER
OUTPUT
STAGE
REFERENCE
COMP.
ACTIVE
FILTER
COMP.
TX DATA OUT
TX INHIBIT IN
+5V (VL)
+15V (VCC)
-15V (V EE)
RX DATA OUT
GND1
GND2
GND3
RX DATA IN
RX DATA IN
INPUT
AMPLIFIER
RX DATA OUT
CASE
RX STROBE IN
Block Diagram (Without Transformer)
The Transmitter section accepts
bi-phase TTL data at the input and
when coupled to the data bus with a
1.4:1 ratio transformer, isolated on
the data bus side with two 52.5
Ohm fault isolation resistors, and
loaded
by
two
70
Ohm
terminations, the data bus signal is
typically 7.5 Volts P-P at point A
(See Figure 5). When both DATA
and DATA inputs are held low or
high,
the
transmitter
output
becomes a high impedance and is
“removed” from the line. In addition,
an overriding “INHIBIT" input
eroflex Circuit Technology – Data Bus Modules For The Future © SCD4402 REV A 5/28/99
provides for the removal of the
transmitter output from the line. A
logic “1” signal applied to the
“INHIBIT” takes priority over the
condition of the data inputs and
disables the transmitter (See
Transmitter
Logic
Waveform,
Figure 1). The Transmitter may be
safely operated for an indefinite
period with the bus (point A) short
circuited at 100% duty cycle.
Receiver
The
Receiver
section
accepts
bi-phase differential data at the
input and produces two TTL signals
at the output. The outputs are DATA
and DATA, and represent positive
and negative excursions of the input
beyond a pre-determined threshold
(See Receiver Logic Waveform,
Figure 2).
The pre-set internal thresholds will
detect data bus signals, point A
Figure 5, exceeding 1.20 Volts P-P
and reject signals less than 0.6
Volts P-P when used with a
transformer (See Figure 5 for
transformer data and typical
connection).
A low level at the RX Strobe
input inhibits the DATA
and
DATA outputs. If unused, a 2K
pull-up to +5 Volts
is
recommended.
Figure 1 — Transmitter Logic Waveforms Idealized
DATA IN
DATA IN
INHIBIT
LINE TO LINE
OUTPUT
Note: DATA and DATA inputs must be complementary waveforms or 50% duty cycle average, with no delays between them,
and must be in the same state during off times (both high or low).
Figure 2 — Receiver Logic Waveforms Idealized (ACT4402)
LINE TO LINE
INPUT
STROBE
DATA OUT
DATA OUT
Note overlap
Aeroflex Circuit Technology
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SCD4402 REV A 5/28/99 Plainview NY (516)694-6700
Absolute Maximum Ratings
Operating case temperature
-55°C to +125°C
Storage case temperature
-65°C to +150°C
Power supply voltage
VCC
VEE
VL
-0.3 V to +18 V
+0.3 V to-18 V
-0.3 V to +7.0 V
Logic input voltage
-0.3 V to +5.5 V
±40 VP-P
Receiver differential input
Receiver input voltage (common mode)
±10 V
Driver peak output current
300 mA
Total package power dissipation over the full operating case
temperature rise
2.5 Watts
Maximum junction to case temperature
10°C
Thermal resistance – junction to case
4°C/W
Electrical Characteristics — Driver Section
Input Characteristics, TX DATA IN or TX DATA IN (Notes 2 & 3 apply)
Parameter
Condition
"0" Input Current
VIN = 0.4 V
"1" Input Current
VIN = 2.7 V
Symbol
Typ
Max
Unit
IILD
-0.1
-0.2
mA
IIHD
1
40
µA
0.7
V
"0" Input Voltage
VIHD
"1" Input Voltage
VIHD
Min
2.0
V
Inhibit Characteristics
"0" Input Current
"1" Input Current
VIN = 0.4 V
IILI
-0.1
-0.2
VIN=2.7V
IIHI
1.0
40
"0" Input Voltage
VILI
"1" Input Voltage
VIHI
Delay from TX inhibit, (0→1) to inhibited output
Delay from TX inhibit, (1→0) to active output
From mid pt
inhibit to
±1.2V pt B,
See Figure 5
Differential output noise, inhibit mode
Differential output impedance (inhibited) Note 1
See Figure 5
0.7
mA
µA
V
V
2.0
tDXOFF
175
225
tDXON
90
150
VNOI
2
10
nS
nS
mVP-P
Point B
ZOI
2K
Ω
Point C
ZOI
1K
Ω
Point A
VO
6
7.5
9
Point A
tr
100
160
300
nS
Point A
VOS
± 90
mV peak
Point A
tDXT
200
nS
Output Characteristics
Differential output level,
See Figure 5
Rise and fall times(10% to 90% at pt A output)
See Figure 5
Output offset, Figure 3, 2.5µS after midpoint crossing
of the parity bit of the last word of a 660µS message
See Figure 5
Delay from 50% point of TX DATA or TX DATA input
to zero crossing of differential signal. See Fig 5
Aeroflex Circuit Technology
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100
VP-P
SCD4402 REV A 5/28/99 Plainview NY (516)694-6700
Electrical Characteristics — Receiver Section
Parameter
Differential Receiver Input Voltage Range
(See Figure 5, Point B)
Condition
Symbol
TXFMR
1.4:1
VIDR
Common Mode Rejection Ratio (Note 3)
CMRR
Min
Typ
Max
Unit
40
VP-P
45
dB
"1" State – Rx Data or Rx Data Output
IOH = -0.4 mA
VOH
"0" State – Rx Data or Rx Data Output
IOI = 4 mA
VOL
0.35
0.5
V
tDXT
270
400
nS
0.75
1.20
VP-P
Delay (average) from Differential Input Zero
Crossings to RX DATA and RX DATA Output 50%
points
Input Threshold Voltage (referred to the bus)
100KHz–1MHz
VTH
2.5
0.60
3.7
V
Strobe Characteristics (Logic "0" Inhibits Output)
"0" Input Current
VS = 0.4V
IIL
-0.1
"1" Input Current
VS = 2.7V
IIH
1
-0.2
mA
+40
µA
0.7
V
"0" Input Voltage
VIL
"1" Input Voltage
VIH
Strobe Delay (Turn-on or Turn-off)
tSD
50
100
ICC
IEE
IL
ICC
IEE
IL
ICC
IEE
IL
ICC
IEE
IL
0
12
18
1
16
30
45
12
18
90
12
18
180
12
18
50
20
30
100
20
30
200
20
30
V
2.0
nS
Power Data
Power Supply Currents – Per Channel – See Figure 4
Transmitter Standby
25% duty cycle
50% duty cycle
100% duty cycle
mA
Power Supply Voltages
±15V Operating Power Supply Voltage Range
VCC
VEE
+5V Operating Power Supply Voltage Range)
VL
+14.25 +15.00 +15.75
-14.25 -15.00 -15.75
V
+4.50
V
+5.00
+5.50
Note 1. Power on or off, measured from 75KHz to 1MHz at point A and transformer self impedance of 3KΩ minimum
at 1MHz.
Note 2: Power Supplies: ±15 Volts ±0.75 V & +5 Volts ±0.5 V, bypassed by 10 µF (Tantalum recommended) Capacitor
minimum. All measurements & specifications apply over the temperature range of -55°C to +125°C (case
temperature) unless otherwise specified.
Note 3: When measured as shown per Figure 5 with ± 10 Volt peak, line to ground, DC to 2MHz
Note 4: Typical power is measured with VBUS at point A = 7.5 V P-P
Aeroflex Circuit Technology
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SCD4402 REV A 5/28/99 Plainview NY (516)694-6700
Figure 3 – Transmitter (TX) Output Offset
Figure 5 – Typical 1553 Bus Connections
LAST BIT
Transformer Coupled Stub
70Ω
Magnified View
ACT4402
OUTPUT OFFSET
*
OUTPUT OFFSET
*
1:1.4 52.5Ω
2:1
TX DATA OUT
3
0 Volts
7
2
A
1
5
T1553-2
TX DATA OUT
2.5 µsec
C
52.5Ω
RX DATA IN
Zoi
VCM
RX DATA IN
*Offset measured at point A in Figure 5
Direct Coupled Stub
Figure 4 – Hybrid Power Dissipation vs. Duty Cycle
ACT4402
3200
2
POWER DISSIPATION
MILLIWATTS
2.97W
0.270
52.5Ω
1.4:1
3
8
TX DATA OUT
3600
B
A
2800
2400
Typical Hybrid Input Power
1
4
T1553-2
TX DATA OUT
2000
1.87W
1600
RX DATA IN
52.5Ω
Zoi
70Ω
RX DATA IN
1200
800
Typical Hybrid
Dissipation
400
0
0
Transformer Model use Technitrol Part# 1553-2
or equivalent
10
20
30
40
50
60
70
80
90 100
DUTY CYCLE – PERCENT
Note: Vcc= +15V, VEE = -15V, VL= +5V, Transformer ratio 1.4:1,
V BUS (point A) at 7.5VP-P.
Configuration and Ordering Information
ACT
Model # / Ordering Part #
Case
Style
DESC
Number
Rx Standby
ACT4402
Ceramic Dip
TBA
Normally Low
ACT4402-I
Ceramic Dip
TBA
Normally High
Specifications subject to change without notice.
Aeroflex Circuit Technology
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SCD4402 REV A 5/28/99 Plainview NY (516)694-6700
Figure 6 – Lead Numbers & Functions
ACT4402
Aeroflex Circuit Technology
Pin #
Function
1
TX DATA OUT
2
TX DATA OUT
3
GROUND
4
NC
5
NC
6
NC
7
RX DATA OUT
8
STROBE
9
GROUND
10
RX DATA OUT
11
NC
12
NC
13
V CC
14
NC
15
RX DATA IN
16
RX DATA IN
17
NC
18
CASE
19
VEE
20
+5 V
21
TX INHIBIT
22
TX DATA IN
23
TX DATA IN
24
NC
6
SCD4402 REV A 5/28/99 Plainview NY (516)694-6700
CIRCUIT TECHNOLOGY
Ceramic Package Outline
24
13
12
Pin# 1 & ESD
Designator
1.270
MAX
.200
MAX
.620
MAX
.150
MIN
.030
.010
.050
TYP
.019
.015
.610
.590
.012
.008
All dimensions in inches
Telephone: (516) 694-6700
FAX:
(516) 694-6715
Toll Free Inquiries: (800) THE-1553
E-Mail: [email protected]
Aeroflex Circuit Technology
35 South Service Road
Plainview New York 11803
www.aeroflex.com
Aeroflex Circuit Technology
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SCD4402 REV A 5/28/99 Plainview NY (516)694-6700