MII 42142

ADVANCED DATA SHEET
42142
Mii
RADIATION TOLERANT
POWER OPERATIONAL AMPLIFIER
Features:
Applications:
•
•
•
•
•
•
•
•
•
•
•
•
Design Tested to 100 krad(Si) Total Dose
Hermetically Sealed in Metal Package
Performance over –55°C to +125°C
Wide Supply Voltage Range
High Output Current
Short Circuit Protection
HYBRID MICROELECTRONICS
PRODUCTS DIVISION
Satellite/Space systems
Military/High Reliability Systems
Programmable Power Supplies
Solenoid Driver
Servo Motor Amplifier
Synchro Power Amplifier
DESCRIPTION
The 42142 is a power operational amplifier designed for military and space applications where radiation tolerance is
required. Utilizing multi-chip hybrid construction, the 42142 power operational amplifier combines 10A load current
capability with the convenience of a monolithic operational amplifier. Output current limiting is provided using
external resistors. The 42142 power operational amplifier is supplied in an 8-pin hermetic flat package. This design
has demonstrated it will function with minimal degradation after exposure to 100 krad(Si) total dose. This device is
available as COTS, or screened to MIL-PRF-38534, Table C-IX, Class H or custom screening. Lead options
support both through-hole and surface-mount assembly.
ABSOLUTE MAXIMUM RATINGS:
Supply Voltage (±VS) ………………………………………………………………………………………………... ± 22 V
Input Voltage (1) ……………………………………………………………………...………………………..….……. ± 22 V
Differential Input Voltage (2) ……………………………………………….……...…………………………………. ± 0.7 V
Peak Output Current (3) …………………………………………………………………………………………………. 10 A
Storage Temperature Range …………………………………………………………………………..… -65°C to +150°C
Operating Junction Temperature ……………………………………………………………………..…. -55°C to +150°C
Lead Solder Temperature for 10 seconds ………………………………………………………….………….…….. 300°C
Power Dissipation (4) ……………..……………………………………………………………………………….……. 95 W
Linear Derating Factor …………………………………………………………………………………..………... 0.76 W/°C
WEIGHT: ………………………………………………………………….…………… ……………….. 15.2 grams (typical)
RECOMMENDED OPERATING CONDITIONS:
Parameter
Symbol
Min.
Max.
Units
Supply Voltage
±VS
8
20
VDC
Ambient Temperature
TA
-55
125
°C
Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.
Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.
MICROPAC INDUSTRIES, INC. HYBRID MICROELECTRONICS PRODUCTS DIVISION • 905 E. Walnut St., Garland, TX 75040 • (972) 272-3571 • Fax (972) 494-2281
www.micropac.com
E-MAIL: [email protected] 05/17/01
ADVANCED DATA SHEET
42142
Radiation Tolerant Power Operational Amplifier
ELECTRICAL SPECIFICATIONS (Pre-Irradiation)
VS = ± 15 V, TC = -55°C to +125°C unless otherwise specified
Parameter
Symbol
Min.
Typ.*
Max.
Units
VOS

± 25
± 200
µV



±5
µV/°C
IB+, IB-

± 15
± 80
nA
Input Offset Current
IOS

10
75
nA
DC Open Loop Gain
AVOL
100
126

dB
Common-Mode Input Voltage
Range
VCM
± 10.3
± 12.3

V
CMRR
100


dB
GBW

1

MHz
ΦM

45

degree
Slew Rate
SR
2


V/µs
RL = 100 Ω
RCL = 0 Ω
Output Voltage Swing
VO
± 12
± 10


V
RL = 10 kΩ
RL = 1 Ω
Quiescent Current
IQ

4
7
mA
Thermal Resistance
θJA

30

°C/W
Input Offset Voltage
Input Offset Voltage Drift
Input Bias Current
Common-Mode Rejection Ratio
Gain Bandwidth Product (5)
Phase Margin
(5)
Test Conditions
RL > 2 kΩ, VO = ± 10V
VCM = ± 9 VDC
RL = 10 kΩ
RL = 10 kΩ
(small signal)
RL = ∞ Ω
TO-3 package
* All typical values are at TC = 25°C
Notes:
1. For VS less than ± 22 V, the input voltage is not to exceed ± VS.
2. Input current must not exceed 25 mA
3. It is recommended that external current limiting resistors (± RCL ≥ 0.068 Ω) be used to ensure
that 10 A is not exceeded. See Figures 1, 2 and 4 for RCL application information.
4. Case Temperature TC = 25°C (see Figure 3).
5. Guaranteed by design.
Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.
Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.
MICROPAC INDUSTRIES, INC. HYBRID MICROELECTRONICS PRODUCTS DIVISION • 905 E. Walnut St., Garland, TX 75040 • (972) 272-3571 • Fax (972) 494-2281
www.micropac.com
E-MAIL: [email protected] 05/17/01
ADVANCED DATA SHEET
42142
Radiation Tolerant Power Operational Amplifier
10
Short-Circuit Output
Current (±A)
Short-Circuit Output
Current (±A)
10
8
TC = 25°C
6
4
2
8
RCL = .10 ohm
6
4
RCL = .33 ohm
2
0
0
0
0.1
0.2
0.3
0.4
-55
0.5
-25
35
65
95
125
Temperature (°C)
Resistance (ohm)
Figure 1. Typical Short-Circuit Output Current
Case
vs. Current Limiting Resistors (±RCL)
Internal Power Dissipation (W)
5
Figure 2. Short-Circuit Output Current vs.
Temperature (typical data).
100
80
60
40
20
0
-55
-25
5
35
65
95
125
Temperature (°C)
Figure 3. Maximum Average Power Dissipation
vs. Case Temperature (TO-3 package)
Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.
Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.
MICROPAC INDUSTRIES, INC. HYBRID MICROELECTRONICS PRODUCTS DIVISION • 905 E. Walnut St., Garland, TX 75040 • (972) 272-3571 • Fax (972) 494-2281
www.micropac.com
E-MAIL: [email protected] 05/17/01
ADVANCED DATA SHEET
42142
Radiation Tolerant Power Operational Amplifier
+VS
50 F
+RCL
3
4
42142
5
2
1
8
6
SIGNAL
GROUND
-R CL
LOAD
50 F
-VS
Figure 4. Application Information
Controlling the short circuit current to the minimum necessary for a given application maximizes
device protection and reliability.
Approximate values for the current limiting resistors can be determined from the equation:
RCL = (0.65/ISC - 0.01) Ω
where ISC is the short circuit current limit in amperes at TC = 25°C.
Current limits for positive and negative load currents can be set independently.
Current limiting resistors carry the full output current, therefore the short circuit current limit should be
used in determining resistor wattage. Lead lengths of the limiting resistors should be minimized and
highly inductive resistor types should be avoided.
Large bypass capacitors (50 µF) are recommended across the power supply terminals if the application
requires large output current transients. Care should be taken to keep the power supply ground currents
from flowing through the signal ground path.
Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.
Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.
MICROPAC INDUSTRIES, INC. HYBRID MICROELECTRONICS PRODUCTS DIVISION • 905 E. Walnut St., Garland, TX 75040 • (972) 272-3571 • Fax (972) 494-2281
www.micropac.com
E-MAIL: [email protected] 05/17/01
ADVANCED DATA SHEET
42142
Radiation Tolerant Power Operational Amplifier
TOTAL DOSE TEST RESULTS
Disclaimer: The data of 4 representative units irradiated in Cobalt-60 chamber is only typical of one lot of
operational amplifiers. Micropac does not guarantee performance of its Operational Amplifier to these
radiation levels. Individual lots have to be screened to guarantee the performance.
50
Input Offset Current, nA
Input Offset Voltage, µ V
40
30
20
10
0
-10
40
30
20
10
0
-20
0
50
0
100
Figure 5. Input Offset Voltage vs Total Dose
100
Figure 6. Input Offset Current vs Total Dose
500
Input(-) Bias Current, nA
500
Input(+) Bias Current, nA
50
Total Dose, krad (Si)
Total Dose, krad (Si)
400
300
200
100
400
300
200
100
0
0
0
50
Total Dose, krad (Si)
Figure 7. Input (+) Bias Current vs Total Dose
100
0
50
100
Total Dose, krad (Si)
Figure 8. Input (-) Bias Current vs Total Dose
Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.
Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.
MICROPAC INDUSTRIES, INC. HYBRID MICROELECTRONICS PRODUCTS DIVISION • 905 E. Walnut St., Garland, TX 75040 • (972) 272-3571 • Fax (972) 494-2281
www.micropac.com
E-MAIL: [email protected] 05/17/01
42142
Radiation Tolerant Power Operational Amplifier
132
5
Quiescent Current, mA
Open Loop Volage Gain, dB
ADVANCED DATA SHEET
130
128
126
4
3
0
50
100
Total Dose, krad (Si)
Figure 9. Open Loop Voltage Gain vs Total Dose
0
50
100
Total Dose, krad (Si)
Figure 10. Quiescent Current vs Total Dose
Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.
Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.
MICROPAC INDUSTRIES, INC. HYBRID MICROELECTRONICS PRODUCTS DIVISION • 905 E. Walnut St., Garland, TX 75040 • (972) 272-3571 • Fax (972) 494-2281
www.micropac.com
E-MAIL: [email protected] 05/17/01
ADVANCED DATA SHEET
42142
Radiation Tolerant Power Operational Amplifier
CASE OUTLINE
NOTE: Dimensions in inches.
ELECTRICAL CONNECTIONS
Pin 1 ................................................+V s
Pin 2 ................................................ -IN
Pin 3 ................................................ +IN
Pin 4 ................................................ -V s
Pin 5 ................................................ CLPin 6 ............................................... OUT
Pin 7 ................................................ NC
Pin 8 ................................................ CL+
Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.
Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.
MICROPAC INDUSTRIES, INC. HYBRID MICROELECTRONICS PRODUCTS DIVISION • 905 E. Walnut St., Garland, TX 75040 • (972) 272-3571 • Fax (972) 494-2281
www.micropac.com
E-MAIL: [email protected] 05/17/01
ADVANCED DATA SHEET
42142
Radiation Tolerant Power Operational Amplifier
CASE OUTLINE (FOR ENGINEERING SAMPLES ONLY)
A
B
DIM
A
B
C
D
E
F
G
H
J
K
Q
R
INCHES
MIN
MAX
1.510
1.550
.745
.770
.260
.300
.038
.042
.080
.105
40° BASIC
.500 BASIC
1.186 BASIC
.583 BASIC
.400
.500
.151
.161
.980
1.020
MILLIMETERS
MIN
MAX
38.35
39.37
18.92
19.56
6.60
7.62
0.97
1.07
2.03
2.67
40° BASIC
12.7 BASIC
30.12 BASIC
15.08 BASIC
10.16
12.70
3.84
4.09
24.89
25.91
C
E
SEATING
PLANE
K
D
H
G
J
Q
F
1
8
2
3
7 6
4
5
NOTE: Leads in true position with 0.010" (0.25mm) R at
MMC at seating plane.
Pin numbers shown for refence only. Numbers may
not be marked on package.
ELECTRICAL CONNECTIONS
Pin 1 ........................................... Output
Pin 2 ............................................... CL+
Pin 3 ............................................... +V s
Pin 4 ............................................... +IN
Pin 5 ................................................ -IN
Pin 6 ............................................... -V s
Pin 7 ............................................... N.C.
Pin 8 ................................................ CL-
NOTE: The engineering samples could be provided in TO-3 package with the pin functions as shown above.
Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.
Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.
MICROPAC INDUSTRIES, INC. HYBRID MICROELECTRONICS PRODUCTS DIVISION • 905 E. Walnut St., Garland, TX 75040 • (972) 272-3571 • Fax (972) 494-2281
www.micropac.com
E-MAIL: [email protected] 05/17/01