e, Bi-Directional & DC Output
Bi-Directional Solid-State Relay
FEATURES
High voltage output
Extremely low leakage current
(200 nanoamperes)
Bi-directional Power FET output
Optical isolation
Fast switching speed
Adjustable turn-on times
Low profile 6-pin mini-DIP
Built and tested to the requirements of
MIL-PRF-28750
APPLICATIONS
Ideal for Automatic Test Equipment (ATE)
Telecommunications applications
High-voltage instrumentation systems
High-speed switching with low EMI
DESCRIPTION
The Series FB relay is an advanced solid-
state bi-directional relay designed specifically
for high-speed switching in A.T.E. systems.
These devices utilize Teledyne state-of-the-
art solid-state circuit technology and
manufacturing techniques to provide high
reliability, low life cycle cost and exceptional
switch performance. Each device is uniquely
characterized by its switching function. The
FB00FC is a power instrumentation relay with
low ON resistance and leakage
current. The FB00KB is a high-voltage
instrumentation relay with a quarter ampere
current rating. The FB00CD is a power relay
with a current rating of 1 ampere and an ON
resistance of 0.4 ohm. The FB solid-state
relay has very fast turn on times of under 1
msec and can also be controlled and adjusted
with the input current for specific
requirements. Other features include optical
coupling and full military temperature
operating range for extreme applications.
Optical coupling minimizes EMI generation
and isolates and protects delicate input logic
circuits from output voltage transients. These
devices are packaged and hermetically
sealed in a low-profile metal 6- pin mini-DIP
with lead spacing on 0.300 centers for
standard mounting configurations.
Series FB
BLOCK DIAGRAM
Part
DESC Drawing Relay Description
Number*
Number
FB00CDW
Solid State Relay
FB00CDY
89116-006
±1.0 A @ ±80 Vdc Output
FB00FCW
Solid State Relay
FB00FCY
89116-002
±0.5 A @ ±180 Vdc Output
FB00KBW
Solid State Relay
FB00KBY
89116-004
±250 mA @ ±350 Vdc Output
* The Y suffix denotes parameters tested to MIL-PRF-28750
specifications. The W suffix denotes parameters tested to Teledyne
specifications.
MECHANICAL SPECIFICATIONS
DIMENSIONS ARE SHOWN IN INCHES (MILLIMETERS) © 2002 TELEDYNE RELAYS
(800) 284-7007 www.teledynerelays.com
FB 91
FB\072002\Q1
Series FB
ENVIRONMENTAL SPECIFICATIONS
Min
Max
Units
Temperature
Operating
-55
+120
°C
Storage
-55
+125
°C
Vibration, 100 g
10
2000
Hz
Constant Acceleration
5000
g
Shock, 0.5 ms pulse
1500
g
ELECTRICAL SPECIFICATIONS
(-55°C TO 120°C Ambient Temperature Unless Otherwise Noted)
INPUT (CONTROL) SPECIFICATION
(See Note 1)
Min
Typ
Max Units
Rated Input Current
10
25
mAdc
Input Voltage Drop @ 25 mA
3.25
Vdc
Continuous Input Current
-55°C < T
A
< 105°C
10
50
mAdc
105°C < T
A
< 120°C
10
25
mAdc
Reverse Voltage Protection
-5
Vdc
Input Current (Guaranteed Off)
10
µAdc
Input Current (Guaranteed On)
10
mA
Turn-Off Voltage
1.5
Vdc
OUTPUT (LOAD) SPECIFICATIONS
BI-DIRECTIONAL AND AC CONFIGURATIONS (PIN 4 TO PIN 6), SEE NOTE 2
FB00CD
FB00FC
FB00KB
Min
Max
Min
Max
Min
Max
Units
Continuous Load Current (See Fig. 3 & Note 5)
±1.0
±0.5
±0.25
Adc
Leakage Current @ V
load
= max. operating voltage
-55°C < T
A
< +25°C
±200
±200
±200
nAdc
+25°C < T
A
< 120°C
±20
±20
±20
µAdc
Output Voltage Drop
±0.75
±1.0
±2.4
Vdc
Continuous Operating Load Voltage
±80
±180
±350
Vdc
Transient Blocking Voltage (5 s max.)
±90
±180
±360
Vdc
ON Resistance R
ds
(on) at T
J
= 25°C
0.6
1.0
8.0
Ohm
I
LOAD
= 100 mAdc (See Fig. 4 & Note 6)
Turn-On Time @ I
IN
= 25 mA (See Fig. 2 and 5)
800
800
500
µs
Turn-Off Time (See Fig. 5)
500
500
500
µs
dV/dt
100
100
100
V/µs
Load Surge Current (See Note 3)
±3.5
±1.75
±0.875
Adc
DC Offset Voltage
100
100
100
µV
Output Capacitance at 25 Vdc, 1 MHz
325
250
100
pF FB 92
SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE
© 2002 TELEDYNE RELAYS
FB\072002\Q1
Series FB
OUTPUT (LOAD) SPECIFICATIONS
DC Configuration (Pins 4 and 6 connected together referenced to Pin 5) (See Notes 2 & 7)
FB00CD
FB00FC
FB00KB
Min
Max
Min
Max
Min
Max
Units
Continuous Load Current (See Fig. 3 & Note 5)
2.0
1.0
0.5
Adc
Leakage Current @ V
load
= max. operating voltage
-55°C < T
A
< +25°C
400
400
400
nAdc
+25°C < T
A
< 120°C
40
40
40
µAdc
Output Voltage Drop
0.4
0.5
1.8
Vdc
Continuous Operating Load Voltage
80
180
350
Vdc
Transient Blocking Voltage (5 s max.)
90
180
360
Vdc
ON Resistance R
ds
(on) at T
J
= 25°C
0.15
0.25
2.0
Ohm
I
LOAD
= 100 mAdc (See Fig. 4 & Note 6)
Turn-On Time @ I
IN
= 25 mA (See Fig. 2 and 5)
800
800
500
µs
Turn-Off Time (See Fig. 5)
500
500
500
µs
Load Surge Current (See Note 3)
7.0
3.5
1.75
Adc
Output Capacitance at 25 Vdc, 1 MHz
650
500
200
pF
OUTPUT (LOAD) SPECIFICATIONS
FB00CD
FB00FC
FB00KB
All Configurations
Min
Max
Min
Max
Min
Max
Units
Input to Output Capacitance
5
5
5
pF
Dielectric Strength
500
500
500
Vac
Insulation Resistance @ 500 Vdc
10
9
10
9
10
9
Ohm
Output Junction Temperature @ I
LOAD
= I
max

rated
125
125
125
°C
Maximum Junction Temperature (T
J
Max.)
150
150
150
°C
Thermal Resistance Junction to Ambient (
JA
)
110
110
110
°C/W
Thermal Resistance Junction to Case (
JC
)
20
20
20
°C/W © 2002 TELEDYNE RELAYS
(800) 284-7007 www.teledynerelays.com
FB 93
FB\072002\Q1
Series FB
NORMALIZED ON RESISTANCE VS JUNCTION
TEMPERATURE.
FIGURE 4 (SEE NOTE 6)
OUTPUT TURN-ON AND OFF TIMING
FIGURE 5
INPUT CURRENT VS TURN-ON TIME
FIGURE 2
NOTES:
1.
Series resistor required to limit input current to 50 mA
max.
2.
The rated input current is 25 mA for all tests unless
otherwise specified.
3.
Surge current is specified for 25°C, 10 cycles maximum at
a 1 Hz repetition rate with 10% duty cycle and 0.1 s.
duration.
4.
Relays may drive loads connected to either positive or
negative referenced power supply lines. Inductive loads
must be diode suppressed.
5.
Continuous load current is rated under the condition of still
air.
6.
To calculate the maximum ON resistance for a given
junction temperature, find the normalized ON resistance
factor (NR) from Figure 4. Calculate the new ON
resistance as follows:
R
(ON)
= NR X R
(ON)
@ 25°C
7.
Relays are tested in the bi-directional configuration only.
LOAD CURRENT DERATING CURVE
FIGURE 3
WIRING CONFIGURATIONS
FIGURE 1
B) DC CONFIGURATION (SEE NOTE 4)
A) BI-DIRECTIONAL AND DC CONFIGURATION (SEE NOTE 4)