HI-8585, HI-8586
February 2017
ARINC 429
Line Driver
PIN CONFIGURATION
SLP1.5
1
TX0IN
2
TX1IN
3
GND
4
DESCRIPTION
The HI-8585 and HI-8586 are CMOS integrated circuits
designed to directly drive the ARINC 429 bus in an 8-pin
package. Two logic inputs control a differential voltage
between the output pins producing a +10 volt One, a
-10 volt Zero, and a 0 volt Null.
The CMOS/TTL control inputs are translated to ARINC
specified amplitudes using on board band-gap reference.
A logic input is provided to control the slope of the differen-
tial output signal. Timing is set by on-chip resistor and
capacitor and tested to be within ARINC requirements.
The HI-8585 has 37.5 ohms in series with each line driver
output. The HI-8586 provides the option to bypass part of
the output resistance so that series resistance can be
used in external protection circuitry.
The HI-8585 or the HI-8586 along with the HI-8588 or the
Hi-8591 line receivers offer the smallest options available
to get on and off the ARINC bus.
8
V+
7
TXBOUT
6
TXAOUT
5
V-
SUPPLY VOLTAGES
V+ = 12V to 15V
V- = -12V to -15V
FUNCTION TABLE
TX1IN TX0IN SLP1.5
TXAOUT
0V
-5V
-5V
5V
5V
0V
TXBOUT
0V
5V
5V
-5V
-5V
0V
SLOPE
N/A
10
m
s
1.5
m
s
10
m
s
1.5
m
s
N/A
0
0
0
0
1
1
0
0
1
X
0
1
0
1
X
FEATURES
!
!
!
!
!
!
!
!
Direct ARINC 429 line driver interface
in a small package
On-chip band-gap reference to set
output levels
On-chip line driver slope control and
selection by logic input
Low current 12 to 15 volt supplies
CMOS / TTL logic pins
Plastic and ceramic package options -
surface mount and DIP
Thermally enhanced SOIC packages
Industrial & extended temperature
ranges
1
1
1
PIN DESCRIPTION TABLE
PIN
1
2
3
4
5
6
7
8
SYMBOL
SLP 1.5
TX0IN
TX1IN
GND
V-
TXAOUT
TXBOUT
V+
FUNCTION
LOGIC INPUT
LOGIC INPUT
LOGIC INPUT
POWER
POWER
OUTPUT
OUTPUT
POWER
DESCRIPTION
CMOS OR TTL, V+ IS OK
CMOS OR TTL
CMOS OR TTL
GROUND
-12 TO -15 VOLTS
LINE DRIVER TERMINAL A
LINE DRIVER TERMINAL B
+12 TO +15 VOLTS
( DS 8585 Rev. O)
HOLT INTEGRATED CIRCUITS
www.holtic.com
02/17
HI-8585, HI-8586
FUNCTIONAL DESCRIPTION
Figure 1 is a block diagram of the line driver. The +5V and
-5V levels are generated internally using a on-chip band-
gap reference. Currents for slope control are set by zener
voltages across on-chip resistors.
The TX0IN and TX1IN inputs receive logic signals from a
control transmitter chip such as the HI-6010, HI-3282 or
HI-8282. TXAOUT and TXBOUT hold each side of the
ARINC bus at Ground until one of the inputs becomes a
One. If for example TX1IN goes high, a charging path is
enabled to 5V on an “A” side internal capacitor while the
“B” side is enabled to -5V. The charging current is se-
lected by the SLP1.5 pin. If the SLP1.5 pin is high, the
capacitor is nominally charged from 10% to 90% in 1.5µs.
If SLP1.5 is low, the rise and fall times are 10µs.
A unity gain buffer receives the internally generated slopes
and differentially drives the ARINC line. Current is limited
by the series output resistors at each pin. There are no
fuses at the outputs of the HI-8585 as exists on the
Hi-8382.
The HI-8585 has 37.5 ohms in series with each output and
the HI-8586 has 2 ohms in series with each output. The
HI-8586 is for applications where external series resis-
tance is required, typically for lightning protection devices.
Both the HI-8585 and HI-8586 are built using high-speed
CMOS technology. Care should be taken to ensure the
V+ and V- supplies are locally decoupled and that the
input waveforms are free from negative voltage spikes
which may upset the chip’s internal slope control circuitry.
5V
ONE
“A” SIDE
CURRENT
CONTROL
TXAOUT
HI-8585 = 37.5 OHMS
HI-8586 = 2 OHMS
NULL
ZERO
-5V
TX0IN
TX1IN
ESD
PROTECTION
AND
VOLTAGE
TRANSLATION
CONTROL
LOGIC
SLP1.5
5V
ONE
“B” SIDE
CURRENT
CONTROL
TXBOUT
HI-8585 = 37.5 OHMS
HI-8586 = 2 OHMS
NULL
ZERO
CONTROL
LOGIC
-5V
FIGURE 1 - LINE DRIVER BLOCK DIAGRAM
5V
1
HARDWIRED
OR
DRIVEN FROM LOGIC
{
2
8
4
VCC
TESTA
TESTB
ROUTA
ROUTB
6
7
RXD1
RXD0
HI-8588
RINA
RINB
APPLICATION INFORMATION
Figure 2 shows a possible application
of the HI-8585/86 interfacing an ARINC
transmit channel from the HI-6010.
ARINC
Channel
3
HI-6010
5
15V
1
6
SLP1.5
TXAOUT
8 BIT BUS
8
V+
TX1IN
TX0IN
V-
3
2
ARINC
Channel
TXD1
TXD0
7
HI-8585
TXBOUT
GND
4
5
-15V
FIGURE 2 - APPLICATION DIAGRAM
HOLT INTEGRATED CIRCUITS
2
HI-8585, HI-8586
ABSOLUTE MAXIMUM RATINGS
Voltages referenced to Ground
Supply voltages
V+ .................................................. 20V
V- .................................................. -20V
DC current per input pin ............... +10mA
Power dissipation at 25°C
plastic DIP .......... 1.0W, derate 10mW/°C
ceramic DIP ........ 0.5W, derate 7mW/°C
Solder Temperature (Reflow) .......... 260°C
Storage Temperature ...... -65°C to +150°C
RECOMMENDED OPERATING CONDITIONS
Supply Voltages
V+.................................+11.4V to +16.5V
V-.................................. -11.4V to -16.5V
Temperature Range
Industrial .............-40°C to +85°C
Extended ...........-55°C to +125°C
NOTE: Stresses above absolute maximum
ratings or outside recommended operating
conditions may cause permanent damage to
the device. These are stress ratings only.
Operation at the limits is not recommended.
DC ELECTRICAL CHARACTERISTICS
V+ = +12V to +15V, V- = -12V to -15V, T A = Operating Temperature Range (unless otherwise stated)
PARAMETERS
Input voltage (TX1IN, TX0IN, SLP1.5)
high
low
Input current (TX1IN, TX0IN, SLP1.5)
source
sink
ARINC output voltage (Differential)
one
zero
null
ARINC output voltage (Ref. to GND)
one or zero
null
Operating supply current
V+
V-
ARINC output impedence
HI-8585
HI-8586
SYMBOL
TEST CONDITIONS
MIN
TYP
MAX
UNITS
V
IH
V
IL
2.1
-
-
-
V+
0.5
volts
volts
I
IH
I
IL
V
IN
= 0V
V
IN
= 5V
-
-
-
-
0.1
0.1
m
A
m
A
V
DIFF1
V
DIFF0
V
DIFFN
no load; TXAOUT - TXBOUT
9.00
no load; TXAOUT - TXBOUT -11.00
no load; TXAOUT - TXBOUT -0.50
10.00
-10.00
0
11.00
-9.00
0.50
volts
volts
volts
V
DOUT
V
NOUT
no load & magnitude at pin
no load
SLP1.5 = V+
TX1IN & TX0IN = 0V: no load
TX0IN & TX1IN = 0V: no load
4.50
-0.25
5.00
0
5.50
0.25
volts
volts
I
DD
I
EE
Z
OUT
-
-14.0
6.0
-6.0
14.0
-
mA
mA
-
-
37.5
-
-
2
ohms
ohms
HOLT INTEGRATED CIRCUITS
3
HI-8585, HI-8586
AC ELECTRICAL CHARACTERISTICS
V+ = 15.0V, V- = -15V, T A = Operating Temperature Range (unless otherwise stated)
PARAMETERS
Line Driver propagation delay
Output high to low
Output low to high
Line Driver transition times
High Speed
Output high to low
Output low to high
Low Speed
Output high to low
Output low to high
Input capacitance (1)
logic
Notes:
1. Guaranteed but not tested
t phlx
t plhx
SLP 1.5 = V+
pin 1 = logic 1
pin 1 = logic 1
SLP 1.5 = GND
pin 1 = logic 1
pin 1 = logic 1
SYMBOL
TEST CONDITIONS
defined in Figure 3, no load
-
-
500
500
-
-
ns
ns
MIN
TYP
MAX
UNITS
t fx
t rx
t fx
t rx
1.0
1.0
5.0
5.0
1.5
1.5
10.0
10.0
2.0
2.0
15.0
15.0
µs
µs
µs
µs
CIN
-
-
10
pF
pin 3
t phlx
t plhx
pin 2
t phlx
t rx
t rx
VDIFF
pin 6 - pin 7
90%
10%
90%
10%
10%
5V
0V
t plhx
5V
0V
10V
0V
-10V
t fx
t fx
FIGURE 3 - LINE DRIVER TIMING
HOLT INTEGRATED CIRCUITS
4
HI-8585, HI-8586
PACKAGE THERMAL CHARACTERISTICS
MAXIMUM ARINC LOAD
9, 10
PACKAGE STYLE
1
ARINC 429
DATA RATE
Low Speed
3
High Speed
4
Low Speed
High Speed
Low Speed
High Speed
SUPPLY CURRENT (mA)
2
Ta = 25
o
C
Ta = 85
o
C
Ta=125
o
C
JUNCTION TEMP, Tj (°C)
Ta = 25
o
C
Ta = 85
o
C
Ta=125
o
C
8 Lead Plastic DIP
8 Lead Plastic ESOIC
5
8 Lead Plastic ESOIC
6
16.8
27.3
17.4
27.6
17.1
27.3
17.2
26.7
17.5
27.1
17.2
27.1
16.9
25.9
16.9
25.9
16.7
26.2
58
75
68
97
52
57
116
132
126
147
110
112
157
169
166
186
151
157
TXAOUT and TXBOUT Shorted to Ground
7, 8, 9, 10
PACKAGE STYLE
1
ARINC 429
DATA RATE
Low Speed
3
High Speed
4
Low Speed
High Speed
Low Speed
High Speed
SUPPLY CURRENT (mA)
2
Ta = 25
o
C
Ta = 85
o
C
Ta=125
o
C
JUNCTION TEMP, Tj (°C)
Ta = 25
o
C
Ta = 85
o
C
Ta=125
o
C
8 Lead Plastic DIP
8 Lead Plastic ESOIC
5
53.6
46.9
46.4
42.1
48.5
46.8
50.7
38.7
47.6
43.8
45.6
41.1
52.2
42.5
68.1
67.1
46.1
40.5
131
135
167
177
112
116
181
181
191
212
161
168
217
219
221
223
186
197
8 Lead Plastic ESOIC
6
Notes:
1. All data taken in still air on devices soldered to single layer copper PCB (3" X 4.5" X .062").
2. At 100% duty cycle, 15V power supplies. For 12V power supplies multiply all tabulated values by 0.8.
3. Low Speed: Data Rate = 12.5 Kbps, Load: R = 400 Ohms, C = 30 nF.
4. High Speed: Data Rate = 100 Kbps, Load: R = 400 Ohms, C = 10 nF. Data not presented for C = 30 nF
as this is considered unrealistic for high speed operation.
5. 8 Lead Plastic ESOIC (Thermally enhanced SOIC with built in heat sink). Heat sink not soldered to the PCB.
6. 8 Lead Plastic ESOIC (Thermally enhanced SOIC with built in heat sink). Heat sink soldered to the PCB.
7. Similar results would be obtained with TXAOUT shorted to TXBOUT.
8. For applications requiring survival with continuous short circuit, operation above Tj = 175°C is not recommended.
9. Data will vary depending on air flow and the method of heat sinking employed.
10. Current values are per supply.
HEAT SINK - ESOIC PACKAGES
An 8-pin thermally enhanced SOIC package is used for the
HI-8585/HI-8586 products. The ESOIC package includes
a metal heat sink located on the bottom surface of the
device. This heat sink should be soldered down to the
printed circuit board for optimum thermal dissipation. The
heat sink is electrically isolated from the chip and can be
soldered to any ground or power plane. However, since
the chip’s substrate is at V+, connecting the heat sink to
this power plane is recommended to avoid coupling noise
into the circuit.
HOLT INTEGRATED CIRCUITS
5
京公网安备 11010802033920号
EEWORLD
