Datasheet ARX4467-FP, ARX4467, ARX4440-FP, ARX4440, ARX4407-201-2 Datasheet (ACT)

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Features

EX THRESHOLD

EX THRESHOLD

ARX4404 & 4407 Transceivers for

MACAIR A3818, A5690, A5232, A4905

& MIL-STD-1553

• ARX4404 Transceiver meets MIL-STD-1553A & B,
Macair A3818, A4905, A5232 and A5690 specs

• ARX4407 Transceiver meets MIL-STD-1553 specs

• Bipolar Supply ±15V to ±12V, Logic Supply +5V

• Direct replacement for CT3231 and CT3232

• Voltage source output for higher bus drive power

• Plug-in, flat package or low profile flat package

• Monolithic construction using linear ASICs

• Variable receiver threshold capability

• Low receiver data level versions, ARX4440, 4467

• Processed and screened to MIL-STD-883 specs

• DESC SMD (Standard Military Drawing)

• MIL-PRF-38534 Compliant Devices Available

ARX4404FP/4404 Transceivers

TX DATA IN

TX DATA IN

TX INHIBIT

DATA

SET INTERNAL
THRESHOLD

DATA

+5 V

-12V or -15V

RX DATA IN

RX DATA IN

+15V or +12V

STROBE

DATA

DATA

DRIVER

INPUT
AMP

SHAPING

V-

ACTIVE
FILTER

Block Diagram (without Transformer)

OUTPUT
STAGE

V+

COMP.

COMP.

TX DATA OUT

TX DATA OUT

RX DATA OUT

RX DATA OUT

CIRCUIT TECHNOLOGY

General Description

The Aeroflex Laboratories
transceiver models ARX4404 and
ARX4407 are new generation
monolithic transceivers which provide
full compliance with Macair and
MIL-STD-1553 data bus
requirements

The model ARX4404 and model
ARX4407 perform the front-end
analog function of inputting and
outputting data through a transformer
to a MIL-STD-1553 or Macair data
bus. The ARX4404 can be
considered a "Universal" Transceiver
in that it is compatible with
MIL-STD-1553A, B, Macair A-3818,
A-4905, A-5232 and A-5690. The
ARX4407 is compatible with
MIL-STD-1553A and B.

Design of these transceivers
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. The ARX4404
series active filter design has
additional high frequency roll-off to
provide the required Macair low
harmonic distortion waveform without
increasing the pulse delay
characteristics significantly.

Efficient transmitter electrical and
thermal design provides low internal
power dissipation and heat rise at
high and well as low duty cycles.

An optional receiver input threshold
adjustment can be accomplished by
the use of the "Set Internal
Threshold" terminals.

Transmitter

The Transmitter section accepts
bi-phase TTL data at the input and
when coupled to the data bus with a

EROFLEX CIRCUIT TECHNOLOGY-Data Bus Modules for the Future ©SCD4404 REV D 10/27/99

Aeroflex Circuit Technology SCD4404 REV D 10/27/99 Plainview NY (516) 694-6700

1:1 transformer, isolated on the data

devices, the receiver outputs are swapped as shown by the dashed lines

bus side with two 52.5 Ohm fault
isolation resistors, and loaded by
two 70 Ohm terminations plus
additional receivers, the data bus
signal produced is 7.0 Volts
minimum P-P at A-A’. (See
Figure5.) When both DATA and

inputs are held low or high, the

DATA
transmitter output becomes a high
impedance and is “removed” from
the line. In addition, an overriding
“INHIBIT" input provides for the
removal of the transmitter output
from the line. A logic “1” applied to
the “INHIBIT” takes priority over the
condition of the data inputs and
disables the transmitter. (See
Transmitter Logic Waveforms,
Figure 1.)

Figure 1 - Transmitter Logic Waveforms

DATA IN

The transmitter utilizes an active
filter to suppress harmonics above
1MHz to meet Macair specifications
A-3818, A-4905, A-5232 and
A-5690. The transmitter may be
safely operated for an indefinite
period at 100% duty cycle into a
data bus short circuit.

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

, and represent positive and

DATA
negative excursions of the input
beyond a pre-determined threshold.
(See Receiver Logic Waveforms,
Figure 2.)

The internal threshold is nominally

set to detect data bus signals
exceeding 1.05 Volts P-P and
reject signals less than 0.6 Volts
P-P when used with a 1:1 turns
ratio transformer. (See Figure 5 for
transformer data and typical
connection.) This threshold setting
can be held by grounding the
appropriate pins or modified with
the use of external resistors.

A low level at the Strobe input
inhibits the DATA and DATA
outputs. If unused, a 2K Ohm
pull-up to +5 Volts is
recommended.

DATA IN

INHIBIT

LINE TO LINE

OUTPUT

Notes:

1. Line to line waveforms illustrate Macair signals, MIL-STD-1553 signals are trapezoidal

2. DATA and DATA

3. DATA and DATA

inputs must be complementary waveforms or 50% duty cycle average, with no delays between them.
must be in the same state during off time (both high or low).

Figure 2 - Receiver Logic Waveforms

LINE TO LINE
INPUT

DATA OUT

DATA OUT

NOTE: Waveforms shown are for normally low devices. For normally high receiver output

level

2

Note overlap

Aeroflex Circuit Technology SCD4404 REV D 10/27/99 Plainview NY (516) 694-6700

Absolute Maximum Ratings

Operating case temperature

Storage Case Temperature

-55°C to +125°C

-65°C to +150°C

Power Supply Voltages ±16 V +7 V

Logic Input Voltage -0.3 V to +5.5 V

Receiver Differential Input

±40 V

Receiver Input Voltage (Common Mode) ±10V

Driver Peak Output Current 300 mA

Total Package Power Dissipation over the Full
Operating Case Temperature Range

Maximum Junction to Case Temperature

3.6 Watts

18°C

Junction-Case, Thermal Resistance 5°C/W

Electrical Characteristics, Transmitter Section

Input Characteristics, TX DATA IN or TX DATA IN

Parameter Condition Symbol Min Typ Max Unit

"0" Input Current VIN = 0.4 V I

"1" Input Current V

= 2.7 V I

IN

"0" Input Voltage V

"1" Input Voltage V

ILD

IHD

IHD

IHD

2.0 - - V

-0.2 -0.4 mA

-

-

1.0

40 µA

- - 0.7 V

Inhibit Characteristics

"0" Input Current V

"1" Input Current V

"0" Input Voltage V

"1" Input Voltage V

Delay from TX inhibit(0→1) to inhibited output Note 1 t

Delay from TX inhibit, (1→0) to active output Note 1 t

Differential output noise, inhibit mode V

Differential output impedance (inhibited) Note 2 Z

= 0.4 V I

IN

= 2.7 V I

IN

Output Characteristics

Differential output level R

Rise and fall times
(10% to 90% of p-p output)

Output offset at point A-A’ on Fig 5., 2.5 µS
after midpoint crossing of the parity bit of the
last word of a 660 µS message

Delay from 50% point of TX DATA or
TX DATA

input to zero crossing of

differential signal. (Note 1)

= 35 Ω V

L

ARX4404

ARX4407 100 180 300

= 35 Ω V

R

L

ARX4404

ARX4407 150 300 nS

ILI

IHI

ILI

IHI

DXOFF

DXON

NOI

OI

O

& t

t

R

OS

t

DTX

-0.2 -0.4 mA

-

- 1.0 40

µA

- - 0.7 V

2 - - V

- 300 450 nS

- 300 450 nS

- 0.8 10 mVp-p

2K - - Ω

7 7.5 9 Vp-p

200 250 300

F

nS

±90 mVpeak

240 300 nS

3

Aeroflex Circuit Technology SCD4404 REV D 10/27/99 Plainview NY (516) 694-6700

Electrical Characteristics, Receiver Section

Parameter Condition Symbol Min Typ Max Unit

Differential Input Impedance f = 1MHz Z

Differential Input Voltage Range V

Input Common Mode Voltage Range

Common Mode Rejection Ratio Note 3

Note 1 V

Note 1 CMRR

Strobe Characteristics (Logic "0" Inhibits Output)

"0" Input Current VS = 0.4 V I

"1" Input Current V

= 2.7 V I

S

"0" Input Voltage V

"1" Input Voltage V

Strobe Delay (Turn-on or Turn-off) Note 1 t

Threshold Characteristics (Sinewave Input )

Internal Threshold Voltage
(Referred to the bus) Pins 6 and 11 grounded

External Threshold

Pins 6 & 11 open,
Pin 5 with a 5.9K resistor to GND,
Pin 12 with a 6.65K resistor to GND,
1MHZ Sinewave applied to point A-A"

100KHz-1MHz V

IN

IDR

ICR

IL

IH

IH

SD

TH

V

TH(EXT)

20K 100K Ω

- -

10

40

40

- - Vp-p

- -

Vp-p

dB

- -0.2 -0.4 mA

- -1.0 +40 µA

IL

- - 0.7 V

2.0 - - V

- - 150 nS

0.60 0.80 1.15 Vp-p

1.5 1.9 2.3 Vp-p

Output Characteristics, RX DATA and RX DATA

"1" State I

"0" State I

Delay (average), from differential input zero
crossings to RX DATA and RX DATA

output

50% points

= -0.4 mA V

OH

= 4 mA V

OL

Note 1 t

OH

OL

DRX

Power Data

Power Supply Currents (Power Supplies set at +15V, -15V, +5V)

I

CC

Transmitter Standby

25% duty cycle

50% duty cycle

100% duty cycle

I

I
I

I
I

I
I

EE

I

L

CC

EE

I

L

CC

EE

I

L

CC

EE

I

L

2.5 3.6 - V

- 0.35 0.5 V

- 300 450 nS

30
50

25

50
70
25

75
45
25

120
140

25

60
75

35

85

105

35

110
130

35

160
180

35

mA

Recommended Power Supply Voltage Range

+V +11.4 Volts to +15.75 Volts

-V -11.4 Volts to -15.75 Volts

Logic +4.5 Volts to +5.5 Volts

4

Aeroflex Circuit Technology SCD4404 REV D 10/27/99 Plainview NY (516) 694-6700

Figure 3 - Transmitter (TX) Output Wave form Figure 4 - Transmitter (TX) Output offset

POWER DISSIPATION

WATTS

Last Bit

tf*

90%

6.5V P-P MIN

8.5V P-P MAX

10%

tr*

* Rise and fall times measured at point A-A’ in Fig 5

0 Volts

0 Volts

2.5 µsec

*Offset measured at point A-A’ in Fig 5

Figure 5 - Typical Transformer connection Figure 6 - Power Dissipation vs. Duty Cycle

70

TX DATA OUT

TX DATA

OUT

RX DATA

RX DATA IN

IN

Ω

B

B’

52.5Ω

Ctr

tap

52.5Ω

A

A’

N1:N2

Transformer turns ratios:
N1:N2 = 1:1
N1:N3 = 1:0.71
Use Aeroflex 25T1553-1

70Ω

N1:N3 for
stub
coupling

4.0

3.5

3.0

2.5

2.0

1.5

1.0

0.5

0

0 10 20 30 40 50 60 70 80 90 100

(TYPICAL)

DUTY CYCLE, PERCENT

Magnified View

OUTPUT OFFSET*

OUTPUT OFFSET

*

Notes:

1. Characteristics guaranteed by design, not production tested.

2. Measured from 75KHz to 1MHz at point A-A’ with transformer self impedance of 3KΩ

minimum, power on or off.

3. Specifications apply over the temperature range of -55°C to +125°C (case temperature)
unless otherwise noted.

4. All typical values are measured at +25°C

The information contained in this data sheet is believed to be accurate; however, Aeroflex Circuit Technology.

assumes no responsibility for its use, and no licence or rights are granted by implication or otherwise in connection
therewith.

5

Aeroflex Circuit Technology SCD4404 REV D 10/27/99 Plainview NY (516) 694-6700

CIRCUIT TECHNOLOGY

PLUG-IN PACKAGE

1.27 MAX

1.10

24 13

1.27
MAX

Designator

Pin 1 & ESD

0.24
MIN

0.018 DIA.
±0.002

12

1.10

0.175
MAX

0.100

Pin Connections

1. TX DATA OUT

2. TX DATA

3. TX GND (+5V)

4. +15V (TX)

5. EXT. DATA THRES

6. INT. DATA THRES

7. RX DATA OUT

8. STROBE

9. RX GND (+5V)

10. RXDATA

11. INT DATA

12. EXT DATA THRES

13. +15V (RX)

14. N.C.

15. RX DATA IN

16. RX DATA

17. GND

18. CASE GND

19. -15V (RX)

20. +5V

21. TX INHIBIT

22. TX DATA IN

23. TX DATA

24. -15V (TX)

Notes

OUT

OUT

THRES

IN

IN

1. Dimensions shown are in inches

2. Pins are equally spaced at 0.100±0.002 tolerance non-cumulative each row.

1.27 MAX

0.167 for Low Profile Flat Pack

0.200 for Std Flat Pack

FLAT PACKAGE

1.27 MAX

Designator

Pin 1 & ESD

0.400
MAX

2 sides

0.080 ±0.015

Special Note

If using the 4404 To replace the 3404

"

4440

"

3464

" 4407 " 3407
"

4467

"

3467

Please note that Pins 6 and 11 must be GROUNDED in order for the receiver to operate. These Pins were
No Connect in the 3400 Series, because the External Variable Threshold was not an option.

0.017

±0.002

0.10 Typ

0.009

±0.002

Configurations and Ordering Information

DESC No. Model No. Receiver Data level Case Specs.

5962-9174909HXC ARX4404-001-1 Normally High Plug In 1553 & Macair
5962-9174909HXA ARX4404-001-2 Normally High Plug In 1553 & Macair
5962-9174909HYC ARX4404-201-1 Normally High Flat Pack 1553 & Macair
5962-9174909HYA ARX4404-201-2 Normally High Flat Pack 1553 & Macair
5962-9174908HXC ARX4407-001-1 Normally High Plug In 1553
5962-9174908HXA ARX4407-001-2 Normally High Plug In 1553
5962-9174908HYC ARX4407-201-1 Normally High Flat Pack 1553
5962-9174908HYA ARX4407-201-2 Normally High Flat Pack 1553
To Be Assigned ARX4440 Normally Low Plug In 1553 & Macair
To Be Assigned ARX4440-FP Normally Low Flat Pack 1553 & Macair
To Be Assigned ARX4467 Normally Low Plug In 1553
To Be Assigned ARX4467-FP Normally Low Flat Pack 1553

Specifications subject to change without notice

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35 South Service Road
Plainview New York 11803
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