ETC JL140

MICROCIRCUIT DATA SHEET
Original Creation Date: 05/10/95
Last Update Date: 02/17/97
Last Major Revision Date: 05/10/95
MJLM140-12-K REV 0B0
VOLTAGE REGULATOR, +12 VOLTS AT 1.0A
General Description
The LM140 monolithic 3-terminal positive voltage regulators employ internal current
limiting, thermal shutdown and safe-area compensation, making them essentially
indestructible. If adequate heat sinking is provided, they can deliver over 1.0A output
current. They are intended as fixed voltage regulators in a wide range of applications
including local (on-card) regulation for elimination of noise and distribution problems
associated with single-point regulation. In addition to use as fixed voltage regulators,
these devices can be used with external components to obtain adjustable output voltages
and currents.
Considerable effort was expended to make the entire series of regulators easy to use and
minimize the number of external components. It is not necessary to bypass the output,
although this does improve transient response. Input bypassing is needed only if the
regulator is located far from the filter capacitor of the power supply.
Industry Part Number
NS Part Numbers
LM140
JL140-12BYA
JL140-12SYA
Prime Die
LM140
Controlling Document
38510/10707
REV C
Processing
Subgrp Description
MIL-STD-883, Method 5004
1
2
3
4
5
6
7
8A
8B
9
10
11
Quality Conformance Inspection
MIL-STD-883, Method 5005
1
Static tests at
Static tests at
Static tests at
Dynamic tests at
Dynamic tests at
Dynamic tests at
Functional tests at
Functional tests at
Functional tests at
Switching tests at
Switching tests at
Switching tests at
Temp ( oC)
+25
+125
-55
+25
+125
-55
+25
+125
-55
+25
+125
-55
MICROCIRCUIT DATA SHEET
MJLM140-12-K REV 0B0
Features
-
Complete specifications at 1A load
Internal thermal overload protection
Internal short-circuit current limit
Output transistor safe-area protection
2
MICROCIRCUIT DATA SHEET
MJLM140-12-K REV 0B0
(Absolute Maximum Ratings)
(Note 1)
DC Input Voltage
35V
Internal Power Dissipation
(Note 2)
Internally Limited
Maximum Junction Temperature
150 C
Storage Temperature Range
-65 C to +150 C
Lead Temperature
(Soldering, 10 seconds)
ESD Susceptibility
(Note 3)
300 C
2kV
Note 1:
Note 2:
Note 3:
Absolute Maximum Ratings are limits beyond which damage to the device may occur.
Operating Conditions are conditions under which the device functions but the
specification might not be guaranteed. For guaranteed specifications and test
conditions see the Electrical Characteristics.
The maximum allowable power dissipation at any ambient temperature is a function of
the maximum junction temperature for operation (TjMAX = 150 C), the
junction-to-ambient thermal resistance (ThetaJA), and the ambient temperature (TA).
PDMAX = (TjMAX - TA)/ThetaJA. If this dissipation is exceeded, the die temperature
will rise above TjMAX and the electrical specifications do not apply. If the die
temperature rises above 150 C, the device will go into thermal shutdown. The
junction-to-ambient thermal resistance (ThetaJA) is 39 C/W. When using a heatsink,
ThetaJA is the sum of the 4 C/W junction-to-case thermal resistance (ThetaJC) and the
case-to-ambient thermal resistance (ThetaCA) of the heatsink.
ESD rating is based on the human body model, 100pF discharged through 1.5 k ohms.
Recommended Operating Conditions
(Note 1)
Temperature Range (TA)
(Note 2)
-55 C to +125 C
Note 1:
Note 2:
Absolute Maximum Ratings are limits beyond which damage to the device may occur.
Operating Conditions are conditions under which the device functions but the
specification might not be guaranteed. For guaranteed specifications and test
conditions see the Electrical Characteristics.
The maximum allowable power dissipation at any ambient temperature is a function of
the maximum junction temperature for operation (TjMAX = 150 C), the
junction-to-ambient thermal resistance (ThetaJA), and the ambient temperature (TA).
PDMAX = (TjMAX - TA)/ThetaJA. If this dissipation is exceeded, the die temperature
will rise above TjMAX and the electrical specifications do not apply. If the die
temperature rises above 150 C, the device will go into thermal shutdown. The
junction-to-ambient thermal resistance (ThetaJA) is 39 C/W. When using a heatsink,
ThetaJA is the sum of the 4 C/W junction-to-case thermal resistance (ThetaJC) and the
case-to-ambient thermal resistance (ThetaCA) of the heatsink.
3
MICROCIRCUIT DATA SHEET
MJLM140-12-K REV 0B0
Electrical Characteristics
DC/AC PARAMETERS
SYMBOL
Vout (1)
VRLINE
VRLOAD
ISCD
PARAMETER
Output Voltage
Line Regulation
Load Regulation
Stand by Current
Drain
CONDITIONS
NOTES
PINNAME
UNIT
SUBGROUPS
MIN
MAX
Vin = 15V, Il = -5mA
11.4
12.6
V
1, 2,
3
Vin = 15V, Il = -1A
11.4
12.6
V
1, 2,
3
Vin = 27V, Il = -5mA
11.4
12.6
V
1, 2,
3
Vin = 27V, Il = -1A
11.4
12.6
V
1, 2,
3
Vin = 35V, Il = -5mA
11.4
12.6
V
1, 2,
3
Vin = 35V, Il = -0.1A
11.4
12.6
V
1, 2,
3
15V < Vin < 35V, Il = -0.1A
-360
360
mV
1, 2,
3
15V < Vin < 32V, Il = -0.5A
-120
120
mV
1, 2,
3
Vin = 17V, -1A < Il < -5mA
-240
240
mV
1, 2,
3
Vin = 35V, -0.1A < Il < -5mA
-360
360
mV
1, 2,
3
Vin = 17V, Il = -5mA
-7
-0.5
mA
1, 2,
3
Vin = 35V, Il = -5mA
-8
-0.5
mA
1, 2,
3
DELTA ISCD
(LINE)
Stand by Current
Drain vs. Line
Voltage
15V < Vin < 35V, Il = -5mA
-1
1
mA
1, 2,
3
DELTA ISCD
(LOAD)
Stand by Current
Drain vs. Load
Current
Vin = 17V, -1A < Il < -5mA
-.5
.5
mA
1, 2,
3
Iol
Peak Output
Current
Forced DELTA/Vout = -1.13V, Vin = 15V
-4
-1
A
1, 2,
3
Ios
Output Short
Circuit Current
Vin = 17V
-3.5
-0.02
A
1, 2,
3
Vin = 32V
-2.5
-0.02
A
1, 2,
3
Vin = 35V
-2
-0.02
A
1, 2,
3
Vout (2)
Output Voltage
Vin = 17V, Il = -5mA
2
11.28
12.72
V
2
Vout (3)
Output Voltage
Vin = 17V, Il = -5mA
3
11.4
12.6
V
7, 8A,
8B
4
MICROCIRCUIT DATA SHEET
MJLM140-12-K REV 0B0
Electrical Characteristics
DC/AC PARAMETERS(Continued)
SYMBOL
PARAMETER
CONDITIONS
NO
Output Noise
Voltage
Vin = 17V, Il = -0.1A
DELTA
Vout/
DELTA IL
Transient Load
Response
Vin = 17V, Il = -100mA,
DELTA Il = -400mA
DELTA
Vout/DELTA
Vin
Transient Line
Response
DELTA
Vout/
DELTA T
DELTA
Vin/DELTA
Vout
NOTES
PINNAME
MIN
MAX
UNIT
SUBGROUPS
250
uVrms 7
1
2.5
mV/mA 7
Vin = 17V, VPULSE = 3V, Il = -5mA
1
30
mV/V 7
Average
Temperature
Coefficient
Output Voltage
25 C < TA < +125 C, Vin = 17V,
Il = -5mA
4
-3
3
mV/C 8A
4
-3
3
mV/C 8B
Ripple Rejection
Vin = 17V, ei = 1Vrms at f = 2400Hz,
Il = -350mA
-55C < TA < 25 C, Vin = 17V,
= -5mA
Il
55
dB
4
DC PARAMETERS: DRIFT VALUES
(The following conditions apply to all the following parameters, unless otherwise specified.)
DC: "Delta calculations performed on JAN S and QMLV devices at group B, subgroup 5 only".
Vout
ISCD
Output Voltage
Stand by Current
Drain
Note
Note
Note
Note
1:
2:
3:
4:
Vin = 15V, Il = -5mA
-0.06
0.06
V
1
Vin = 15V, Il = -1A
-0.06
0.06
V
1
Vin = 27V, Il = -5mA
-0.06
0.06
V
1
Vin = 27V, Il = -1A
-0.06
0.06
V
1
Vin = 35V, Il = -5mA
-0.06
0.06
V
1
Vin = 35V, Il = -0.1A
-0.06
0.06
V
1
Vin = 17V, Il = -5mA
-20
20
%
1
Bench test
Tested at TA = 125 C, correlated to TA = 150 C for National die.
Tested at extremes as a set up for DELTA Vout/DELTA T tests.
Calculated parameter. For calculations use Vout test (Vin = 17V, Il = -5mA).
5
MICROCIRCUIT DATA SHEET
MJLM140-12-K REV 0B0
Graphics and Diagrams
GRAPHICS#
DESCRIPTION
9482HRA1
METAL CAN(KA),TO-3,2LD,LOW PROFILE (B/I CKT)
K02CRC
METAL CAN(KA),TO-3,2LD,LOW PROFILE (P/P DWG)
P000031A
METAL CAN(KA),TO-3,2LD,LOW PROFILE(PIN OUT)
See attached graphics following this page.
6