1-454
200-V/160 Ohm, 1 Form A,
Small-Signal Solid State Relay
Technical Data
HSSR-8200
Features
• Compact Solid-State
Bidirectional Signal Switch
• Normally-Off Single-Pole
Relay Function (1 Form A)
• Very High Output Off-
Impedance: 10,000
Gigaohms Typical at 25°C
• Very Low Output Offset
Voltage: < 0.5 µV at
IF=1mA
• 200-Volt Output Withstand
Voltage at 25°C
• High-Transient Immunity:
> 2000 V/µs
• Monolithic High-Voltage IC
• Operating Range: -40°C to
+85°C
• Very Low Input Current
(1 mA); CMOS Compatibility
• High-Speed Switching: 50 µs
Typical
• 160-Ohm Maximum On-
Resistance at 25°C
• Surface Mount Option
• 8-kV ESD Immunity: MIL-
STD-883 Method 3015
• Input-to-Output Insulation
Voltage: 2500 Vac, 1 Minute
• UL 508 Recognized
• CSA Approved
Applications
• Relay Scanners & Analog
Input Modules of Data
Acquisition Systems
• Analog Input Modules of
Programmable Logic
Controllers
• Relay Multiplexers of High-
Performance Voltmeters
• Telecommunication Test
Instruments
• Functional Tester of Board
Test Equipment
• Analog Signal Multiplexer
• Flying Capacitor Multiplexer
• Reed Relay Replacement
Description
The HSSR-8200 consists of a high-
voltage integrated circuit optically
coupled with a light emitting diode.
This device is a solid-state
replacement for single-pole,
normally-open electromechanical
relays used for general purpose
switching of analog signals.
The light-emitting diode controls
the ON/OFF function of the solid-
state relay. The detector contains
high voltage MOS transistors and a
high speed photosensitive drive
circuit. This relay has superior OFF
impedance, very low output offset
voltage and input drive current.
H
Functional Diagram
CAUTION: It is advised that normal static precautions be taken in handling and assembly of this component to
prevent damage and/or degradation which may be induced by ESD.
TRUTH TABLE
(POSITIVE LOGIC)
LED
ON
OFF
OUTPUT
L
H
5965-3574E
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The electrical and switching
characteristics of the HSSR-8200
are specified from –40°C to
+85°C. The low IF allows
compatibility with TTL, LSTTL,
and CMOS logic resulting in low
power consumption compared to
other solid state and mechanical
relays.
Ordering Information
Specify part number followed by Option Number (if desired).
HSSR-8200#XXX
300 = Gull Wing Surface Mount Lead Option
500 = Tape/Reel Package Option (1 K min)
Option data sheets available. Contact your Hewlett-Packard sales representative or authorized distributor for
information.
Selection Guide
Maximum Maximum Maximum
6-Pin DIP 4-Pin DIP Maximum ON Output Output Hermetic
(300 Mil) (300 Mil) Speed Resistance Voltage Current Minimum 8-Pin
Single Dual t(ON) R(ON) VO(off) Io(ON) Input Single
Channel Channel msec ΩV mA Current Channel
Package Package 25°C25°C25°C25°C mA Packages
HSSR-8400[1] 0.95 10 400 150 5
HSSR-8060[1] 1.4 0.7 60 750 5
HSSR-8200 1.5 200 200 40 1
6 1 90 800 5 HSSR-7110[1]
Note:
1. Technical data are on separate HP publication.
Schematic
I
F
V
F
1
4
+
–
8
SWITCH
DRIVER
5
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Package Outline Drawings
4-Pin DIP Package (HSSR-8200)
9.40 (0.370)
9.90 (0.390)
PIN
ONE
HP RXXXX
YYWW
TYPE
NUMBER
DATE CODE
0.76 (0.030)
1.40 (0.055)
0.51 (0.020) MIN.
4.70 (0.185) MAX.
2.92 (0.115) MIN.
6.10 (0.240)
6.60 (0.260)
0.02 (0.008)
0.33 (0.013)
5° TYP.
7.37 (0.290)
7.87 (0.310)
DIMENSIONS IN MILLIMETERS
AND (INCHES).
1.19 (0.047) MAX.
5
8
4
1
7.37 (0.290)
7.87 (0.310)
0.65 (0.025) MAX.
4-Pin DIP Package with Gull Wing Surface Mount Option 300
0.635 ± 0.25
(0.025 ± 0.010) 12° NOM.
0.20 (0.008)
0.33 (0.013)
9.65 ± 0.25
(0.380 ± 0.010)
0.50 ± 0.130
(0.020 ± 0.005)
7.62 ± 0.25
(0.300 ± 0.010)
5
8
4
1
9.65 ± 0.25
(0.380 ± 0.010)
PIN 1
1.080 ± 0.320
(0.043 ± 0.013)
4.19
(0.165)MAX.
1.19
(0.047)
MAX.
7.62 ± 0.25
(0.300 ± 0.010)
DIMENSIONS IN MILLIMETERS (INCHES).
6.35 ± 0.25
(0.250 ± 0.010)
1-457
240
∆T = 115°C, 0.3°C/SEC
0
∆T = 100°C, 1.5°C/SEC
∆T = 145°C, 1°C/SEC
TIME – MINUTES
TEMPERATURE – °C
220
200
180
160
140
120
100
80
60
40
20
0
260
123456789101112
Thermal Profile (Option #300)
Figure 1. Maximum Solder Reflow Thermal Profile.
(Note: Use of non-chlorine activated fluxes is recommended.)
Regulatory Information
The HSSR-8200 has been
approved by the following
organizations:
UL
Recognized under UL 508,
Component Recognition
Program, Industrial Control
Switches, File E142465.
CSA
Approved under CAN/CSA-C22.2
No. 14-95, Industrial Control
Equipment, File LR 87683.
Insulation and Safety Related Specifications
Parameter Symbol Value Units Conditions
Min. External Air Gap L(IO1) 7.0 mm Measured from input terminals to output
(External Clearance) terminals, shortest distance through air
Min. External Tracking Path L(IO2) 7.5 mm Measured from input terminals to output
(External Creepage) terminals, shortest distance path along body
Min. Internal Plastic Gap 0.5 mm Through insulation distance, conductor to
(Internal Clearance) conductor, usually the direct distance
between the photoemitter and photodetector
inside the optocoupler cavity
Tracking Resistance CTI 200 Volts DIN IEC 112/VDE 0303 PART 1
(Comparative Tracking Index)
Isolation Group IIIa Material Group (DIN VDE 0110, 1/89, Table 1)
Option 300 – surface mount classification is Class A in accordance with CECC 00802.
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Absolute Maximum Ratings
Storage Temperature ................................................... -55°C to+125°C
Operating Temperature ................................................. -40°C to +85°C
Lead Solder Temperature .... 260°C for 10 s (1.6 mm below seating plane)
Average Input Current - IF............................................................10 mA
Repetitive Peak Input Current - IF.................... 20 mA; 50% Duty Cycle
Transient Peak Input Current - IF...............................................100 mA
(≤ 1 µs pulse width; 1 kHz Pulse Repetition Rate)
Reverse Input Voltage .......................................................................5 V
Average Output Current – IO................................................... 40 mA[1]
Input Output Insulation Voltage ......................................... 2500 VAC[6]
Output Power Dissipation ..................................................... 320 mW[2]
Output Voltage – VO..................................................... -200 V to 200 V
Infrared and Vapor Phase Reflow Temperature
(Option #300) ..........................................see Fig. 1, Thermal Profile
Recommended Operating Conditions
Parameter Symbol Min. Max. Units
Input Current (ON) IF(ON) 15mA
Input Voltage (OFF) VF(OFF) 0 0.6 Volt
Operating Temperature TA-40 +85 °C
Output Voltage VO(OFF) -200 200 Volt
Output Current IO(ON) -40 40 mA
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DC Electrical Specifications
–40°C ≤TA ≤+85°C, 1 mA ≤IF(ON) ≤5 mA, 0 V ≤VF(OFF) ≤0.6 V, and all Typicals at TA = 25°C unless
otherwise specified.
Parameter Sym. Min. Typ. Max. Units Test Conditions Fig. Notes
Output Withstand |VO(OFF)| 200 245 V IO = 1 µA
Voltage
70 125 160 TA = 25°C,
IO = 1 MA
Output On-Resistance R(ON) 40 125 250 ΩIO = 1 MA 3, 4,
5
30 100 200 IO = 40 mA
Output On-Current |IO(ON)|40mAV
O
≤ 8 V, 1
Rating TA ≤ 40°C
Output Off-Resistance R(OFF) 50 10,000 GΩVO = 200 V 6 6
Output Off-Leakage IO(OFF) 0.02 4.0 nA VO = 200 V 6
Current
Output C(OFF) 4.5 pF VO = 0 V, 7
Off-Capacitance f = 1 MHz
–0.2 IO = 0 A; IF = 1 mA
Output Offset V
O(OS) Note Note µV8, 17,3
Voltage 3 –1.3 3 IO = 0 A; IF = 5 mA 18
Input Reverse VR310 VI
R
= 10 µA
Breakdown Voltage
Input Diode dV
F/dT –1.75 mV/ IF = 1 mA
Temperature Coefficient °C
Input Forward VF1.5 2.0 V IF = 5 mA 9
Voltage
Input Capacitance CIN 21 pF VF = 0 V;
f = 1 MHz
Switching Specifications
–40°C ≤TA ≤+85°C, 1 mA ≤IF(ON) ≤5 mA, 0 V ≤VF(OFF) ≤0.6 V, and all Typicals at TA = 25°C unless
otherwise specified.
Parameter Symbol Min. Typ. Max. Units Test Conditions Fig. Notes
50 200 IF = 5 mA
Turn On Time tON µsV
O
= 50 V 10, 11,
300 1500 IF = 1 mA 12, 13
45 250 IF = 5 mA
Turn Off Time tOFF µsV
O
= 50 V 10, 11,
75 350 IF = 1 mA 12, 13
≥7000 ∆VO = 200 V
Output Transient dV
O/dt V/µsT
A
= 25°C14
Rejection 2000 ∆VO = 50 V
Input-Output ≥7000 ∆V
I-O = 300 V
Transient dVI–O/dt V/µsT
A
= 25°C15
Rejection 2000 ∆V
I-O = 50 V
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Package Characteristics
For -40°C ≤TA ≤+85°C, unless otherwise specified. All Typicals at TA = 25°C.
Parameter Symbol Min. Typ. Max. Units Test Conditions Fig. Notes
Input-Output VISO 2500 V rms RH = 45%, t = 1 min, 4, 5
Momentary With- TA = 25°C
stand Voltage*
Resistance RI-O 100 100,000 GΩVI-O = 500 VDC, t = 1 min, 4
Input-Output RH = 45%
Capacitance CI-O 0.6 1.0 pF VI-O = 0 V, f = 1 MHz, 4
Input-Output TA = 25°C
*The Input-Output Momentary Withstand Voltage is a dielectric voltage rating that should not be interpreted as an input-output
continuous voltage rating. For the continuous voltage rating refer to the VDE 0884 Insulation Characteristics Table (if applicable),
your equipment level safety specification, or HP Application Note 1074, “Optocoupler Input-Output Endurance Voltage.”
Figure 3. Typical On State I-V Characteristics. Figure 4. Typical Output Resistance vs. Input Current.
I
F
= 1 mA
Figure 2. Recommended Input Circuit.
Notes:
1. Derate linearly above 40°C at a rate of
0.3 mA/°C.
2. Derate linearly above 60°C at a rate of
5mW/°C.
3. VO(OS) is a function of IF(ON), and is
defined between pins 8 and 5 with pin 5
as reference. VO(OS) must be measured
in a stable ambient. See Figure 8 for
variation of VO(OS) around the typical
value.
4. Device considered a two terminal
device: pins 1 and 4 shorted together,
and pins 5 and 8 shorted together.
5. This is a momentary withstand proof
test. These parts are 100% tested in
production at 3000 V rms, one second.
6. R(OFF) is defined as VO(OFF)/IO(OFF).
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Figure 9. Typical Input Forward Current vs. Forward
Voltage.
Figure 5. Typical Output Resistance vs. Temperature. Figure 6. Typical Output Leakage vs. Temperature.
Figure 7. Typical Output Capacitance vs. Output Voltage. Figure 8. Output Offset Voltage Distribution.
NORMALIZED TO
R
(ON)
@ 25 °C
I
F(ON)
= 5 mA
I
O
= 40 mA
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Figure 13. Normalized tON and tOFF vs. Temperature. Figure 14. Output Transient Rejection Test Circuit.
Figure 11. Typical tON and tOFF vs. Input Current. Figure 12. tON and tOFF vs. Output Voltage.
Figure 10. Switching Test Circuit for tON, tOFF.
V
O(OFF)
= 50 V
T
A
= 25 °C
I
O
= 40 mA
NORMALIZED TO t
ON
AT V
O(OFF)
= 50 V
T
A
= 25 °C
I
F(ON)
= 5 mA
I
O
= 40 mA
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Figure 16. Over-Voltage Protection in Multiplexer Applications.
Figure 15. Input-Output Transient Rejection.
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Figure 17. Differential Output Connections to Minimize Offset Voltage Effects.
Figure 18. Voltage Offset Test Setup.
