LM117H MDR [TI]
耐辐射 QMLV、4.2V 至 40V 输入、1.5A 可调输出线性稳压器 | Y | 0 | -55 to 125;型号: | LM117H MDR |
厂家: | TEXAS INSTRUMENTS |
描述: | 耐辐射 QMLV、4.2V 至 40V 输入、1.5A 可调输出线性稳压器 | Y | 0 | -55 to 125 电源电路 线性稳压器IC |
文件: | 总36页 (文件大小:1265K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
LM117QML, LM117QML-SP
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SNVS356D –MARCH 2006–REVISED APRIL 2013
LM117QML 3-Terminal Adjustable Regulator
Check for Samples: LM117QML, LM117QML-SP
1
FEATURES
DESCRIPTION
The LM117 series of adjustable 3-terminal positive
2
•
Available with Radiation Ensured
voltage regulators is capable of supplying either 0.5A
or 1.5A over a 1.2V to 37V output range. They are
exceptionally easy to use and require only two
external resistors to set the output voltage. Further,
both line and load regulation are better than standard
fixed regulators.
–
–
High Dose Rate 100 krad(Si)
ELDRS Free 100 krad(Si)
•
•
•
•
•
•
Specified max. 0.3% Load Regulation (LM117)
Specified 0.5A or 1.5A Output Current
Adjustable Output Down to 1.2V
In addition to higher performance than fixed
regulators, the LM117 series offers full overload
protection available only in IC's. Included on the chip
are current limit, thermal overload protection and safe
area protection. All overload protection circuitry
remains fully functional even if the adjustment
terminal is disconnected.
Current Limit Constant with Temperature
80 dB Ripple Rejection
Output is Short-Circuit Protected
Normally, no capacitors are needed unless the device
is situated more than 6 inches from the input filter
capacitors in which case an input bypass is needed.
An optional output capacitor can be added to improve
transient response. The adjustment terminal can be
bypassed to achieve very high ripple rejection ratios
which are difficult to achieve with standard 3-terminal
regulators.
Besides replacing fixed regulators, the LM117 is
useful in a wide variety of other applications. Since
the regulator is "floating" and sees only the input-to-
output differential voltage, supplies of several
hundred volts can be regulated as long as the
maximum input to output differential is not exceeded,
i.e., avoid short-circuiting the output.
Also, it makes an especially simple adjustable
switching regulator, a programmable output regulator,
or by connecting a fixed resistor between the
adjustment pin and output, the LM117 can be used
as
a precision current regulator. Supplies with
electronic shutdown can be achieved by clamping the
adjustment terminal to ground which programs the
output to 1.2V where most loads draw little current.
For the negative complement, see LM137 series data
sheet.
1
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
2
All trademarks are the property of their respective owners.
PRODUCTION DATA information is current as of publication date.
Products conform to specifications per the terms of the Texas
Instruments standard warranty. Production processing does not
necessarily include testing of all parameters.
Copyright © 2006–2013, Texas Instruments Incorporated
LM117QML, LM117QML-SP
SNVS356D –MARCH 2006–REVISED APRIL 2013
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CONNECTION DIAGRAMS
CASE IS OUTPUT
CASE IS OUTPUT
Figure 1. 2-Pin TO Metal Can Package
Bottom View
Figure 2. 3-Pin PFM Metal Can Package
Bottom View
See K Package
See NDT0003A Package
N/C
N/C
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
N/C
N/C
ADJ
N/C
N/C
OUTPUT/SENSE
OUTPUT
N/C
INPUT
N/C
N/C
N/C
N/C
N/C
For the Ceramic SOIC device to function properly, the "Output" and
"Output/Sense" pins must be connected on the users printed circuit
board.
Figure 3. 16-Pin CFP
Top View
Figure 4. 20-Pin LCCC
Top View
See NAJ0020A Package
Table 1. LM117 Series Packages
Part
Design
Load
Current
1.5A
Number
Package
Suffix
K
TO
PFM
CFP
H
WG, GW
E
0.5A
0.5A
LCCC
0.5A
2
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Schematic Diagram
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These devices have limited built-in ESD protection. The leads should be shorted together or the device placed in conductive foam
during storage or handling to prevent electrostatic damage to the MOS gates.
Absolute Maximum Ratings(1)
Power Dissipation(2)
Internally Limited
+40V, −0.3V
−65°C ≤ TA ≤ +150°C
+150°C
Input-Output Voltage Differential
Storage Temperature
Maximum Junction Temperature (TJmax
Lead Temperature Metal Package
300°C
Thermal Resistance
θJA
T0 Still Air
39°C/W
T0 500LF/Min Air flow
PFM Still Air
14°C/W
186°C/W
64°C/W
PFM 500LF/Min Air flow
CFP "WG" (device 03, 05) Still Air
CFP "WG" (device 03, 05) 500LF/Min Air flow
CFP "GW" (device 06, 07) Still Air
CFP "GW" (device 06, 07) 500LF/Min Air flow
LCCC Still Air
115°C/W
66°C/W
130°C/W
80°C/W
88°C/W
LCCC 500LF/Min Air flow
T0
62°C/W
θJC
1.9°C/W
21°C/W
PFM Metal Can
CFP "WG" (device 03, 05)(3)
CFP "GW" (device 06, 07)
LCCC
3.4°C/W
7°C/W
12°C/W
Package Weight
PFM Metal Can
960mg
CFP "WG" (device 03, 05)
CFP "GW" (device 06, 07)
365mg
410mg
(4)
ESD Tolerance
3KV
(1) Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for
which the device is functional, but do not ensure specific performance limits. For ensured specifications and test conditions, see the
Electrical Characteristics. The ensured specifications apply only for the test conditions listed. Some performance characteristics may
degrade when the device is not operated under the listed test conditions.
(2) The maximum power dissipation must be derated at elevated temperatures and is dictated by TJmax (maximum junction temperature),
θJA (package junction to ambient thermal resistance), and TA (ambient temperature). The maximum allowable power dissipation at any
temperature is PDmax = (TJmax - TA)/θJA or the number given in the Absolute Maximum Ratings, whichever is lower. "Although power
dissipation is internally limited, these specifications are applicable for power dissipations of 2W for the PFM, LCCC, and CFP packages,
and 20W for the TO package."
(3) The package material for these devices allows much improved heat transfer over our standard ceramic packages. In order to take full
advantage of this improved heat transfer, heat sinking must be provided between the package base (directly beneath the die), and either
metal traces on, or thermal vias through, the printed circuit board. Without this additional heat sinking, device power dissipation must be
calculated using θJA, rather than θJC, thermal resistance. It must not be assumed that the device leads will provide substantial heat
transfer out the package, since the thermal resistance of the leadframe material is very poor, relative to the material of the package
base. The stated θJC thermal resistance is for the package material only, and does not account for the additional thermal resistance
between the package base and the printed circuit board. The user must determine the value of the additional thermal resistance and
must combine this with the stated value for the package, to calculate the total allowed power dissipation for the device.
(4) Human body model, 100 pF discharged through a 1.5 kΩ resistor.
Recommended Operating Conditions
Operating Temperature Range
−55°C ≤ TA ≤ +125°C
Input Voltage Range
4.25V to 41.25V
4
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SNVS356D –MARCH 2006–REVISED APRIL 2013
Table 2. Quality Conformance Inspection
MIL-STD-883, Method 5005 - Group A
Description
Subgroup
Temp (°C)
+25
1
2
Static tests at
Static tests at
+125
-55
3
Static tests at
4
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
Settling time at
+25
5
+125
-55
6
7
+25
8A
8B
9
+125
-55
+25
10
11
12
13
14
+125
-55
+25
Settling time at
+125
-55
Settling time at
LM117H & LM117WG Electrical Characteristics
DC Parameters
The following conditions apply, unless otherwise specified. VDiff = (VI − VO), IL = 8mA
Sub-
groups
Symbol
Parameter
Conditions
Notes
Min Max
Unit
VDiff = 3V
100
100
100
5.0
5.0
5.0
µA
µA
µA
mA
mA
mA
V
1
IAdj
Adjustment Pin Current
VDiff = 3.3V
VDiff = 40V
2, 3
1, 2, 3
1
VDiff = 3V, VO = 1.7V
VDiff = 3.3V, VO = 1.7V
VDiff = 40V, VO = 1.7V
VDiff = 3V
IQ
Minimum Load Current
Reference Voltage
2, 3
1, 2, 3
1
1.2
1.2
1.2
1.3
1.3
1.3
VRef
VDiff = 3.3V
V
2, 3
VDiff = 40V
V
1, 2, 3
3V ≤ VDiff ≤ 40V,
VO = 1.2V
-8.9
8.9
mV
mV
mV
mV
mV
mV
µA
1
2, 3
1
VRLine
Line Regulation
Load Regulation
3.3V ≤ VDiff ≤ 40V,
VO = 1.2V
-22.2 22.2
VDiff= 3V,
IL = 10mA to 500mA
-15
-15
15
15
VDiff= 3.3V,
IL = 10mA to 500mA
2, 3
1
VRLoad
VDiff= 40V,
IL = 10mA to 150mA
-15
15
VDiff= 40V,
IL = 10mA to 100mA
-15
15
2, 3
1
VDiff = 3V,
IL = 10mA to 500mA
-5.0
-5.0
-5.0
-5.0
5.0
5.0
5.0
5.0
VDiff = 3.3V,
IL = 10mA to 500mA
µA
2, 3
1
ΔIAdj / Load Adjustment Current Change
VDiff = 40V,
IL = 10mA to 150mA
µA
VDiff = 40V,
IL = 10mA to 100mA
µA
2, 3
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LM117H & LM117WG Electrical Characteristics
DC Parameters (continued)
The following conditions apply, unless otherwise specified. VDiff = (VI − VO), IL = 8mA
Sub-
groups
Symbol
Parameter
Conditions
Notes
Min Max
Unit
3V ≤ VDiff ≤ 40V
-5.0
-5.0
0.45
-6.0
5.0
5.0
1.6
6.0
µA
µA
A
1
2, 3
1
ΔIAdj / Line
Adjustment Current Change
3.3V ≤ VDiff ≤ 40V
IOS
Short Circuit Current
Thermal Regulation
VDiff = 10V
TA = 25°C, t = 20mS, VDiff = 40V, IL
= 150mA
mV
1
θR
VDiff ≤ 15V
See(1)
See(1)
0.5
A
A
1, 2, 3
1
ICL
Current Limit
VDiff = 40V
0.15
(1) Specified parameter, not tested.
LM117H & LM117WG Electrical Characteristics
AC Parameters
Sub-
groups
Symbol
Parameter
Conditions
Notes
Min Max
Unit
VI = +6.25V, VO = VRef
,
RR
Ripple Rejection
ƒ= 120Hz, eI = 1VRMS
,
See(1)
66
dB
4, 5, 6
IL = 125mA
(1) Tested @ 25°C; specified, but not tested @ 125°C & −55°C
LM117K Electrical Characteristics
DC Parameters
The following conditions apply, unless otherwise specified.VDiff = (VI − VO), IL = 10mA
Sub-
groups
Symbol
Parameter
Conditions
Notes
Min Max
Unit
VDiff = 3V
100
100
100
5.0
5.0
5.0
µA
µA
µA
mA
mA
mA
V
1
2, 3
1, 2, 3
1
IAdj
Adjustment Pin Current
VDiff = 3.3V
VDiff = 40V
VDiff = 3V, VO = 1.7V
VDiff = 3.3V, VO = 1.7V
VDiff = 40V, VO = 1.7V
VDiff = 3V
IQ
Minimum Load Current
Reference Voltage
2, 3
1, 2, 3
1
1.2
1.2
1.2
1.3
1.3
1.3
VRef
VDiff = 3.3V
V
2, 3
1, 2, 3
VDiff = 40V
V
3V ≤ VDiff ≤ 40V,
VO = 1.2V
-8.9
8.9
mV
mV
mV
mV
mV
mV
1
2, 3
1
VRLine
Line Regulation
Load Regulation
3.3V ≤ VDiff ≤ 40V,
VO = 1.2V
-22.2 22.2
VDiff= 3V,
IL = 10mA to 1.5A
-15
-15
-15
-15
15
15
15
15
VDiff= 3.3V,
IL = 10mA to 1.5A
2, 3
1
VRLoad
VDiff= 40V,
IL = 10mA to 300mA
VDiff= 40V,
IL = 10mA to 195mA
2, 3
6
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SNVS356D –MARCH 2006–REVISED APRIL 2013
LM117K Electrical Characteristics
DC Parameters (continued)
The following conditions apply, unless otherwise specified.VDiff = (VI − VO), IL = 10mA
Sub-
groups
Symbol
Parameter
Conditions
Notes
Min Max
Unit
µA
VDiff = 3V,
-5.0
-5.0
-5.0
-5.0
5.0
5.0
5.0
5.0
1
IL = 10mA to 1.5A
VDiff = 3.3V,
µA
2, 3
1
IL = 10mA to 1.5A
ΔIAdj / Load Adjustment Current Change
VDiff = 40V,
µA
IL = 10mA to 300mA
VDiff = 40V,
µA
2, 3
IL = 10mA to 195mA
3V ≤ VDiff ≤ 40V
3.3V ≤ VDiff ≤ 40V
VDiff = 10V
-5.0
-5.0
1.6
5.0
5.0
3.4
µA
µA
A
1
2, 3
1
ΔIAdj / Line
Adjustment Current Change
IOS
Short Circuit Current
Thermal Regulation
TA = 25°C, t = 20mS,
VDiff = 40V, IL = 300mA
θR
-10.5 10.5
mV
1
VDiff ≤ 15V
See(1)
See(1)
1.5
0.3
A
A
1, 2, 3
1
ICL
Current Limit
VDiff = 40V
(1) Specified parameter, not tested.
LM117K Electrical Characteristics
AC Parameters
Sub-
groups
Symbol
Parameter
Conditions
Notes
Min Max
Unit
VI = +6.25V, VO = VRef
,
RR
Ripple Rejection
ƒ= 120Hz, eI = 1VRMS
,
See(1)
66
dB
4, 5, 6
IL = 0.5A
(1) Tested @ 25°C; specified, but not tested @ 125°C & −55°C
LM117E Electrical Characteristics
DC Parameters
The following conditions apply, unless otherwise specified. VDiff = (VI − VO), IL = 8mA, PD ≤ 1.5W
Sub-
groups
Symbol
Parameter
Conditions
Notes
Min Max
Unit
VDiff = 3V
100
100
100
5.0
5.0
5.0
µA
µA
µA
mA
mA
mA
V
1
2, 3
1, 2, 3
1
IAdj
Adjustment Pin Current
VDiff = 3.3V
VDiff = 40V
VDiff = 3V, VO = 1.7V
VDiff = 3.3V, VO = 1.7V
VDiff = 40V, VO = 1.7V
VDiff = 3V
IQ
Minimum Load Current
Reference Voltage
2, 3
1, 2, 3
1
1.2
1.2
1.2
1.3
1.3
1.3
VRef
VDiff = 3.3V
V
2, 3
1, 2, 3
VDiff = 40V
V
3V ≤ VDiff ≤ 40V,
VO = 1.2V
-8.9
8.9
mV
mV
1
VRLine
Line Regulation
3.3V ≤ VDiff ≤ 40V,
VO = 1.2V
-22.2 22.2
2, 3
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LM117E Electrical Characteristics
DC Parameters (continued)
The following conditions apply, unless otherwise specified. VDiff = (VI − VO), IL = 8mA, PD ≤ 1.5W
Sub-
groups
Symbol
Parameter
Conditions
Notes
Min Max
Unit
mV
mV
VDiff= 3V,
-15
-15
15
15
1
IL = 10mA to 100mA
VDiff= 3.3V,
2, 3
IL = 10mA to 100mA
VDiff= 40V,
IL = 10mA to 100mA
-15
15
25
mV
mV
1,2
3
VRLoad
Load Regulation
−25
VDiff= 3V,
IL = 10mA to 500mA
-15
-15
15
15
mV
mV
µA
µA
µA
1
2, 3
1
VDiff= 3.3V,
IL = 10mA to 500mA
VDiff = 3V,
IL = 10mA to 500mA
-5.0
-5.0
-5.0
5.0
5.0
5.0
VDiff = 3.3V,
IL = 10mA to 500mA
ΔIAdj / Load Adjustment Current Change
2, 3
1, 2, 3
VDiff = 40V,
IL = 10mA to 100mA
3V ≤ VDiff ≤ 40V
3.3V ≤ VDiff ≤ 40V
VDiff = 10V
-5.0
-5.0
0.45
5.0
5.0
1.6
µA
µA
A
1
2, 3
1
ΔIAdj / Line
Adjustment Current Change
IOS
Short Circuit Current
Thermal Regulation
TA = 25°C, t = 20mS,
VDiff = 40V, IL = 75mA
θR
-6.0
6.0
mV
1
VDiff ≤ 15V
See(1)
See(1)
0.5
A
A
1, 2, 3
1
ICL
Current Limit
VDiff = 40V
0.15
(1) Specified parameter, not tested.
LM117E Electrical Characteristics
AC Parameters
Sub-
groups
Symbol
Parameter
Conditions
Notes
Min Max
Unit
VI = +6.25V, VO = VRef
ƒ= 120Hz, eI = 1VRMS
IL = 100mA, CAdj = 10µf
(1) Tested @ 25°C; specified, but not tested @ 125°C & −55°C
,
RR
Ripple Rejection
,
See(1)
66
dB
4, 5, 6
8
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SNVS356D –MARCH 2006–REVISED APRIL 2013
LM117H & LM117WG RH Electrical Characteristics
DC Parameters(1)(2)
Symbol
Parameter
Conditions
Notes
Min Max
Unit
Sub-
groups
VI = 4.25V, IL = -5mA
VI = 4.25V, IL = -500mA
VI = 41.25V, IL = -5mA
VI = 41.25V, IL = -50mA
1.2
1.2
1.2
1.2
-9.0
-23
1.3
1.3
1.3
1.3
9.0
23
V
V
1, 2, 3
1, 2, 3
1, 2, 3
1, 2, 3
1
VO
Output Voltage
V
V
4.25V ≤ VI ≤ 41.25V,
IL = -5mA
mV
mV
VRLine
Line Regulation
Load Regulation
2,3
VI = 6.25V,
-500mA ≤ IL ≤ -5mA
-12
12
mV
mV
1, 2, 3
1, 2, 3
VRLoad
VI = 41.25V,
-50mA ≤ IL ≤ -5mA
-12
-12
12
12
VRTh
IAdj
Thermal Regulation
Adjust Pin Current
VI = 14.6V, IL = -500mA
VI = 4.25V, IL = -5mA
VI = 41.25V, IL = -5mA
mV
µA
µA
1
-100 -15
-100 -15
1, 2, 3
1, 2, 3
4.25V ≤ VI ≤ 41.25V,
IL = -5mA
ΔIAdj/ Line
Adjust Pin Current Change
-5.0
-5.0
-3.0
-3.0
5.0
5.0
µA
µA
1, 2, 3
1, 2, 3
1, 2, 3
1, 2, 3
1, 2, 3
VI = 6.25V,
-500mA ≤ IL ≤ -5mA
ΔIAdj / Load Adjust Pin Current Change
VI = 4.25V,
Forced VO = 1.4V
-0.5
-0.5
mA
mA
mA
VI = 14.25V,
Forced VO = 1.4V
IQ
Minimum Load Current
VI = 41.25V,
Forced VO = 1.4V
-5.0
-1.8
-1.0
-0.5
VI = 4.25V
VI = 40V
A
A
1, 2, 3
1, 2, 3
IOS
Output Short Circuit Current
-0.5 -0.05
VI = 4.25V, RL = 2.5Ω,
CL = 20µF
1.2
1.3
V
1, 2, 3
VO (Recov) Output Voltage Recovery
VI = 40V, RL = 250Ω
1.2
1.2
1.3
1.3
V
V
1, 2, 3
2
VO
Output Voltage
VI = 6.25V, IL = -5mA
See(3)
VI = 4.25V, RL = 2.5Ω,
CL = 20µF, IL = -500mA
VStart
Voltage Start-Up
1.2
1.3
V
1, 2, 3
(1) Pre and post irradiation limits are identical to those listed under AC and DC electrical characteristics except as listed in the "Post
Radiation Limits" table. These parts may be dose rate sensitive in a space environment and demonstrate enhanced low dose rate effect.
Radiation end point limits for the noted parameters are ensured only for the conditions as specified in Mil-Std-883, Method 1019.5,
Condition A.
(2) Low dose rate testing has been performed on a wafer-by-wafer basis, per test method 1019 condition D of MIL-STD-883, with no
enhanced low dose rate sensitivity (ELDRS) effect.
(3) Tested @ TA = 125°C, correlated to TA = 150°C
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LM117H & LM117WG RH Electrical Characteristics
AC Parameters(1)(2)
Symbol
Parameter
Conditions
Notes
Min Max
Unit
Sub -
groups
VNO
Output Noise Voltage
VI = 6.25V, IL = -50mA
120
6.0
µVRMS
mV/V
7
VI = 6.25V, ΔVI = 3V,
IL = -10mA
ΔVO / ΔVI
Line Transient Response
7
VI = 6.25V, ΔIL = -200mA,
IL = -50mA
ΔVO / ΔIL
ΔVI / ΔVO
Load Transient Response
Ripple Rejection
0.6
mV/mA
dB
7
4
VI = 6.25V, IL = -125mA,
EI = 1VRMS at ƒ = 2400Hz
65
(1) Pre and post irradiation limits are identical to those listed under AC and DC electrical characteristics except as listed in the "Post
Radiation Limits" table. These parts may be dose rate sensitive in a space environment and demonstrate enhanced low dose rate effect.
Radiation end point limits for the noted parameters are ensured only for the conditions as specified in Mil-Std-883, Method 1019.5,
Condition A.
(2) Low dose rate testing has been performed on a wafer-by-wafer basis, per test method 1019 condition D of MIL-STD-883, with no
enhanced low dose rate sensitivity (ELDRS) effect.
LM117H & LM117WG RH Electrical Characteristics
DC Drift Parameters
The following conditions apply, unless otherwise specified.
Deltas performed on QMLV devices at Group B, Subgroup 5, only.
Symbol
Parameter
Conditions
Notes
Min Max
Unit
Sub-
groups
VI = 4.25V, IL = -5mA
VI = 4.25V, IL = -500mA
VI = 41.25V, IL = -5mA
VI = 41.25V, IL = -50mA
-0.01 0.01
-0.01 0.01
-0.01 0.01
-0.01 0.01
V
V
V
V
1
1
1
1
VO
Output Voltage
4.25V ≤ VI ≤ 41.25V,
IL = -5mA
VRLine
IAdj
Line Regulation
-4.0
4.0
mV
1
Adjust Pin Current
VI = 4.25V, IL = -5mA
VI = 41.25V, IL = -5mA
-10
-10
10
10
µA
µA
1
1
VI = 4.25V, RL = 2.5Ω,
CL = 20µf
-0.01 0.01
-0.01 0.01
V
V
1
1
VO (Recov) Output Voltage Recovery
VI = 40V, RL = 250Ω
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LM117H & LM117WG RH Electrical Characteristics
AC/DC Post Radiation Limits @ +25°C(1)(2)
Symbol
Parameter
Conditions
Notes
Min Max
Unit
V
Sub-
groups
VI = 4.25V, IL = -5mA
VI = 4.25V, IL = -500mA
VI = 41.25V, IL = -5mA
VI = 41.25V, IL = -50mA
1.2
1.2
1.2
1.2
1.35
0
1
1
1
1
1.35
0
V
VO
Output Voltage
1.35
0
V
1.35
0
V
4.25V ≤ VI ≤ 41.25V,
IL = -5mA
VRLine
Line Regulation
Ripple Rejection
-25
60
25
mV
dB
V
1
4
1
1
VI = 6.25V, IL = -125mA
EI = 1VRMS at f = 2400Hz
ΔVI / ΔVO
VI = 4.25V, RL = 2.5Ω,
CL = 20µf
1.35
0
1.20
1.20
VO (Recov) Output Voltage Recovery
VI = 40V, RL = 250Ω
1.35
0
V
(1) Pre and post irradiation limits are identical to those listed under AC and DC electrical characteristics except as listed in the "Post
Radiation Limits" table. These parts may be dose rate sensitive in a space environment and demonstrate enhanced low dose rate effect.
Radiation end point limits for the noted parameters are ensured only for the conditions as specified in Mil-Std-883, Method 1019.5,
Condition A.
(2) Low dose rate testing has been performed on a wafer-by-wafer basis, per test method 1019 condition D of MIL-STD-883, with no
enhanced low dose rate sensitivity (ELDRS) effect.
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LM117K RH Electrical Characteristics
DC Parameters(1)
Symbol
Parameter
Conditions
Notes
Min Max
Unit
Sub-
groups
VI = 4.25V, IL = -5mA
VI = 4.25V, IL = -1.5A
VI = 41.25V, IL = -5mA
VI = 41.25V, IL = -200mA
1.2
1.2
1.2
1.2
-9.0
-23
-3.5
-12
-3.5
-12
-12
1.3
1.3
1.3
1.3
9.0
23
V
1, 2, 3
1, 2, 3
1, 2, 3
1, 2, 3
1
V
VO
Output Voltage
Line Regulation
Load Regulation
V
V
4.25V ≤ VI ≤ 41.25V,
IL = -5mA
mV
mV
mV
mV
mV
mV
mV
µA
µA
VRLine
2,3
VI = 6.25V,
-1.5A ≤ IL ≤ -5mA
3.5
12
1
2, 3
1
VRLoad
VI = 41.25V,
-200mA ≤ IL ≤ -5mA
3.5
12
2, 3
1
VRTh
IAdj
Thermal Regulation
Adjust Pin Current
VI = 14.6V, IL = -1.5A
VI = 4.25V, IL = -5mA
VI = 41.25V, IL = -5mA
12
-100 -15
-100 -15
1, 2, 3
1, 2, 3
4.25V ≤ VI ≤ 41.25V,
IL = -5mA
ΔIAdj/ Line
Adjust Pin Current Change
-5.0
-5.0
-3.0
-3.0
5.0
5.0
µA
µA
1, 2, 3
1, 2, 3
1, 2, 3
1, 2, 3
1, 2, 3
VI = 6.25V,
-1.5A ≤ IL ≤ -5mA
ΔIAdj / Load Adjust Pin Current Change
VI = 4.25V,
Forced VO = 1.4V
-0.2
-0.2
mA
mA
mA
VI = 14.25V,
Forced VO = 1.4V
IQ
Minimum Load Current
VI = 41.25V,
Forced VO = 1.4V
-5.0
-3.5
-0.2
-1.5
VI = 4.25V
VI = 40V
A
A
1, 2, 3
1, 2, 3
IOS
Output Short Circuit Current
-1.0 -0.18
VI = 4.25V, RL = 0.833Ω,
CL = 20µF
1.2
1.3
V
1, 2, 3
VO (Recov) Output Voltage Recovery
VI = 40V, RL = 250Ω
1.2
1.2
1.3
1.3
V
V
1, 2, 3
2
VO
Output Voltage
VI = 6.25V, IL = -5mA
See(2)
VI = 4.25V, RL = 0.833Ω,
CL = 20µF, IL = -1.5A
VStart
Voltage Start-Up
1.2
1.3
V
1, 2, 3
(1) Pre and post irradiation limits are identical to those listed under AC and DC electrical characteristics except as listed in the "Post
Radiation Limits" table. These parts may be dose rate sensitive in a space environment and demonstrate enhanced low dose rate effect.
Radiation end point limits for the noted parameters are ensured only for the conditions as specified in Mil-Std-883, Method 1019.5,
Condition A.
(2) Tested @ TA = 125°C, correlated to TA = 150°C
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LM117K RH Electrical Characteristics
AC Parameters(1)
Symbol
Parameter
Conditions
Notes
Min Max
Unit
Sub-
groups
VNO
Output Noise Voltage
VI = 6.25V, IL = -100mA
120
18
µVRMS
mV
7
VI = 6.25V, ΔVI = 3V,
IL = -10mA
ΔVO / ΔVI
Line Transient Response
See(2)
See(3)
7
VI = 6.25V, ΔIL = -400mA,
IL = -100mA
ΔVO / ΔIL
ΔVI / ΔVO
Load Transient Response
Ripple Rejection
120
mV
dB
7
4
VI = 6.25V, IL = -500mA,
EI = 1VRMS at ƒ = 2400Hz
65
(1) Pre and post irradiation limits are identical to those listed under AC and DC electrical characteristics except as listed in the "Post
Radiation Limits" table. These parts may be dose rate sensitive in a space environment and demonstrate enhanced low dose rate effect.
Radiation end point limits for the noted parameters are ensured only for the conditions as specified in Mil-Std-883, Method 1019.5,
Condition A.
(2) SMD limit of 6mV/V is equivalent to 18mV
(3) SMD limit of 0.3mV/V is equivalent to 120mV
LM117K RH Electrical Characteristics
DC Drift Parameters
The following conditions apply, unless otherwise specified.
Deltas performed on QMLV devices at Group B, Subgroup 5, only.
Symbol
Parameter
Conditions
Notes
Min Max
Unit
Sub-
groups
VI = 4.25V, IL = -5mA
VI = 4.25V, IL = -1.5A
VI = 41.25V, IL = -5mA
VI = 41.25V, IL = -200mA
-0.01 0.01
-0.01 0.01
-0.01 0.01
-0.01 0.01
V
V
V
V
1
1
1
1
VO
Output Voltage
4.25V ≤ VI ≤ 41.25V,
IL = -5mA
VRLine
IAdj
Line Regulation
-4.0
4.0
mV
1
VI = 4.25V, IL = -5mA
VI = 41.25V, IL = -5mA
-10
-10
10
10
µA
µA
1
1
Adjust Pin Current
VI = 4.25V, RL = 0.833Ω,
CL = 20µS
-0.01 0.01
-0.01 0.01
V
V
1
1
VO (Recov) Output Voltage Recovery
VI = 40V, RL = 250Ω
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LM117K RH Electrical Characteristics
AC/DC Post Radiation Limits @ +25°C(1)
Symbol
Parameter
Conditions
Notes
Min Max
Unit
Sub-
groups
VI = 4.25V, IL = -5mA
VI = 4.25V, IL = -1.5A
VI = 41.25V, IL = -5mA
VI = 41.25V, IL = -200mA
1.35
1.2
0
V
V
1
1
1
1
1
1
1
4
1.35
1.2
0
VO
Output Voltage
1.35
1.2
0
V
1.35
1.2
0
V
4.25V ≤ VI ≤ 41.25V,
IL = -5mA
VRLine
Line Regulation
Load Regulation
Ripple Rejection
-25
-7.0
-7.0
60
25
7.0
7.0
mV
mV
mV
dB
VI = 6.25V,
-1.5A ≤ IL ≤ -5mA
VRLoad
VI = 41.25V,
-200mA ≤ IL ≤ -5mA
VI = 6.25V, IL = -500mA
EI = 1VRMS at f = 2400Hz
ΔVI / ΔVO
VI = 4.25V, RL = 0.833Ω,
CL = 20µS
1.35
0
1.20
V
V
1
1
VO (Recov) Output Voltage Recovery
VI = 40V, RL = 250Ω
1.20 1.35
0
(1) Pre and post irradiation limits are identical to those listed under AC and DC electrical characteristics except as listed in the "Post
Radiation Limits" table. These parts may be dose rate sensitive in a space environment and demonstrate enhanced low dose rate effect.
Radiation end point limits for the noted parameters are ensured only for the conditions as specified in Mil-Std-883, Method 1019.5,
Condition A.
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Typical Performance Characteristics
Output Capacitor = 0μF unless otherwise noted
Load Regulation
Current Limit
Figure 5.
Figure 6.
Adjustment Current
Dropout Voltage
Figure 7.
Figure 8.
Temperature Stability
Minimum Operating Current
Figure 9.
Figure 10.
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Typical Performance Characteristics (continued)
Output Capacitor = 0μF unless otherwise noted
Ripple Rejection
Ripple Rejection
Figure 11.
Figure 12.
Ripple Rejection
Output Impedance
Figure 13.
Figure 14.
Line Transient Response
Load Transient Response
Figure 15.
Figure 16.
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APPLICATION HINTS
In operation, the LM117 develops a nominal 1.25V reference voltage, VREF, between the output and adjustment
terminal. The reference voltage is impressed across program resistor R1 and, since the voltage is constant, a
constant current I1 then flows through the output set resistor R2, giving an output voltage of
(1)
Since the 100μA current from the adjustment terminal represents an error term, the LM117 was designed to
minimize IADJ and make it very constant with line and load changes. To do this, all quiescent operating current is
returned to the output establishing a minimum load current requirement. If there is insufficient load on the output,
the output will rise.
EXTERNAL CAPACITORS
An input bypass capacitor is recommended. A 0.1μF disc or 1μF solid tantalum on the input is suitable input
bypassing for almost all applications. The device is more sensitive to the absence of input bypassing when
adjustment or output capacitors are used but the above values will eliminate the possibility of problems.
The adjustment terminal can be bypassed to ground on the LM117 to improve ripple rejection. This bypass
capacitor prevents ripple from being amplified as the output voltage is increased. With a 10μF bypass capacitor
80dB ripple rejection is obtainable at any output level. Increases over 10μF do not appreciably improve the ripple
rejection at frequencies above 120Hz. If the bypass capacitor is used, it is sometimes necessary to include
protection diodes to prevent the capacitor from discharging through internal low current paths and damaging the
device.
In general, the best type of capacitors to use is solid tantalum. Solid tantalum capacitors have low impedance
even at high frequencies. Depending upon capacitor construction, it takes about 25μF in aluminum electrolytic to
equal 1μF solid tantalum at high frequencies. Ceramic capacitors are also good at high frequencies; but some
types have a large decrease in capacitance at frequencies around 0.5MHz. For this reason, 0.01μF disc may
seem to work better than a 0.1μF disc as a bypass.
Although the LM117 is stable with no output capacitors, like any feedback circuit, certain values of external
capacitance can cause excessive ringing. This occurs with values between 500 pF and 5000 pF. A 1μF solid
tantalum (or 25μF aluminum electrolytic) on the output swamps this effect and insures stability. Any increase of
the load capacitance larger than 10μF will merely improve the loop stability and output impedance.
LOAD REGULATION
The LM117 is capable of providing extremely good load regulation but a few precautions are needed to obtain
maximum performance. The current set resistor connected between the adjustment terminal and the output
terminal (usually 240Ω) should be tied directly to the output (case) of the regulator rather than near the load. This
eliminates line drops from appearing effectively in series with the reference and degrading regulation. For
example, a 15V regulator with 0.05Ω resistance between the regulator and load will have a load regulation due to
line resistance of 0.05Ω × IL. If the set resistor is connected near the load the effective line resistance will be
0.05Ω (1 + R2/R1) or in this case, 11.5 times worse.
Figure 17 shows the effect of resistance between the regulator and 240Ω set resistor.
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Figure 17. Regulator with Line Resistance in Output Lead
With the TO package, it is easy to minimize the resistance from the case to the set resistor, by using two
separate leads to the case. However, with the PFM package, care should be taken to minimize the wire length of
the output lead. The ground of R2 can be returned near the ground of the load to provide remote ground sensing
and improve load regulation.
PROTECTION DIODES
When external capacitors are used with any IC regulator it is sometimes necessary to add protection diodes to
prevent the capacitors from discharging through low current points into the regulator. Most 10μF capacitors have
low enough internal series resistance to deliver 20A spikes when shorted. Although the surge is short, there is
enough energy to damage parts of the IC.
When an output capacitor is connected to a regulator and the input is shorted, the output capacitor will discharge
into the output of the regulator. The discharge current depends on the value of the capacitor, the output voltage
of the regulator, and the rate of decrease of VIN. In the LM117, this discharge path is through a large junction that
is able to sustain 15A surge with no problem. This is not true of other types of positive regulators. For output
capacitors of 25μF or less, there is no need to use diodes.
The bypass capacitor on the adjustment terminal can discharge through a low current junction. Discharge occurs
when either the input or output is shorted. Internal to the LM117 is a 50Ω resistor which limits the peak discharge
current. No protection is needed for output voltages of 25V or less and 10μF capacitance. Figure 18 shows an
LM117 with protection diodes included for use with outputs greater than 25V and high values of output
capacitance.
D1 protects against C1
D2 protects against C2
Figure 18. Regulator with Protection Diodes
When a value for θ(H−A) is found using the equation shown, a heatsink must be selected that has a value that is
less than or equal to this number.
θ(H−A) is specified numerically by the heatsink manufacturer in the catalog, or shown in a curve that plots
temperature rise vs power dissipation for the heatsink.
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Typical Applications
*Min. output ≊ 1.2V
Figure 19. 5V Logic Regulator with Electronic Shutdown*
Figure 20. Slow Turn-On 15V Regulator
†Solid tantalum
*Discharges C1 if output is shorted to ground
Figure 21. Adjustable Regulator with Improved Ripple Rejection
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Figure 22. High Stability 10V Regulator
‡Optional—improves ripple rejection
†Solid tantalum
*Minimum load current = 30 mA
Figure 23. High Current Adjustable Regulator
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Full output current not available at high input-output voltages
Figure 24. 0 to 30V Regulator
Figure 25. Power Follower
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†Solid tantalum
*Lights in constant current mode
Figure 26. 5A Constant Voltage/Constant Current Regulator
Figure 27. 1A Current Regulator
*Minimum load current ≊ 4 mA
Figure 28. 1.2V–20V Regulator with Minimum Program Current
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Figure 29. High Gain Amplifier
†Solid tantalum
*Core—Arnold A-254168-2 60 turns
Figure 30. Low Cost 3A Switching Regulator
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†Solid tantalum
*Core—Arnold A-254168-2 60 turns
Figure 31. 4A Switching Regulator with Overload Protection
Figure 32. Precision Current Limiter
Figure 33. Tracking Preregulator
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(Compared to LM117's higher current limit)
—At 50 mA output only ¾ volt of drop occurs in R3 and R4
Figure 34. Current Limited Voltage Regulator
*All outputs within ±100 mV
†Minimum load—10 mA
Figure 35. Adjusting Multiple On-Card Regulators with Single Control*
Figure 36. AC Voltage Regulator
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Use of RS allows low charging rates with fully charged battery.
Figure 37. 12V Battery Charger
Figure 38. 50mA Constant Current Battery Charger
Figure 39. Adjustable 4A Regulator
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Full output current not available at high input-output voltages
*Needed if device is more than 6 inches from filter capacitors.
†Optional—improves transient response. Output capacitors in the range of 1μF to 1000μF of aluminum or tantalum
electrolytic are commonly used to provide improved output impedance and rejection of transients.
Figure 40. 1.2V–25V Adjustable Regulator
*Sets peak current (0.6A for 1Ω)
**The 1000μF is recommended to filter out input transients
Figure 41. Current Limited 6V Charger
*Sets maximum VOUT
Figure 42. Digitally Selected Outputs
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REVISION HISTORY
Date Released
Revision
Section
Changes
03/17/06
A
New Release to corporate format
5 MDS data sheets were consolidated into one
corporate data sheet format. Clarified ΔIAdj/ Line
versus ΔIAdj/ Load by separating the parameters in all
of the tables. MNLM117–K Rev 1C1, MNLM117–X
Rev 0A0, MNLM117–E Rev 0B1, MRLM117–X-RH
Rev 2A0, MRLM117–K-RH Rev 3A0 will be archived.
06/29/06
B
Features, Ordering Information Table, Rad
Hard Electrical Section for PFM and CFP
packages and Notes
Deleted NSID LM117WGRQML, no longer available.
Added Available with Radiation Ensured, Low Dose
NSID's to table 5962R9951705VXA
LM117HRLQMLV, 5962R9951705VZA
LM117WGRLQMLV, and reference to Note 11 and
12. Note 12 to Rad Hard Electrical Heading for PFM
and CFP packages. Note 12 to Notes. Archive
Revision A.
11/30/2010
09/06/2011
C
D
Features, Ordering Table, Absolute Ratings,
LM117H, WG and K RH Drift Electrical Table information and format, T0–39 Pkg weight, Vo
(Recov). Revision B will be Archived.
Added radiation info., Update with current device
Ordering Information, Absolute Ratings
Order Info: Added 'GW' NSIDS and SMD numbers.
Abs Max Ratings: Added 'GW' Theta JA and Theta JC
along with 'GW' weight. Revision C will be Archived.
Deleted Ordering Information table.
04/17/2013
D
Changed layout of National Data Sheet to TI format.
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PACKAGE OPTION ADDENDUM
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16-Apr-2013
PACKAGING INFORMATION
Orderable Device
5962R9951703V9A
5962R9951703VXA
Status Package Type Package Pins Package
Eco Plan Lead/Ball Finish
MSL Peak Temp
Op Temp (°C)
-55 to 125
Top-Side Markings
Samples
Drawing
Qty
(1)
(2)
(3)
(4)
ACTIVE
DIESALE
TO
Y
0
3
42
Green (RoHS
& no Sb/Br)
Call TI
Call TI
Level-1-NA-UNLIM
ACTIVE
ACTIVE
NDT
20
50
TBD
TBD
Call TI
-55 to 125
LM117HRQMLV
5962R9951703VXA Q
ACO
5962R9951703VXA Q
>T
5962R9951704VYA
TO
K
2
Call TI
Call TI
-55 to 125
LM117KRQMLV
5962R99517
04VYA Q ACO
04VYA Q >T
5962R9951705V9A
5962R9951705VXA
ACTIVE
ACTIVE
DIESALE
TO
Y
0
3
42
20
Green (RoHS
& no Sb/Br)
Call TI
Call TI
Level-1-NA-UNLIM
Call TI
-55 to 125
-55 to 125
NDT
TBD
TBD
TBD
LM117HRLQMLV
5962R9951705VXA Q
ACO
5962R9951705VXA Q
>T
5962R9951706VZA
5962R9951707VZA
ACTIVE
ACTIVE
CFP
CFP
NAC
NAC
16
16
42
42
Call TI
Call TI
Call TI
Call TI
-55 to 125
-55 to 125
-55 to 125
LM117GWR
QMLV Q
5962R99517
06VZA ACO
06VZA >T
LM117GWRL
QMLV Q
5962R99517
07VZA ACO
07VZA >T
LM117E/883
LM117GW/883
ACTIVE
ACTIVE
ACTIVE
LCCC
CFP
NAJ
NAC
NAC
20
16
16
50
42
42
TBD
TBD
TBD
Call TI
Call TI
Call TI
Call TI
Call TI
Call TI
LM117E
/883 Q ACO
/883 Q >T
LM117GW
/883 Q ACO
/883 Q >T
LM117GWRLQMLV
CFP
-55 to 125
LM117GWRL
QMLV Q
5962R99517
Addendum-Page 1
PACKAGE OPTION ADDENDUM
www.ti.com
16-Apr-2013
Orderable Device
Status Package Type Package Pins Package
Eco Plan Lead/Ball Finish
MSL Peak Temp
Op Temp (°C)
Top-Side Markings
Samples
Drawing
Qty
(1)
(2)
(3)
(4)
07VZA ACO
07VZA >T
LM117GWRQMLV
ACTIVE
CFP
NAC
16
42
TBD
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Call TI
-55 to 125
LM117GWR
QMLV Q
5962R99517
06VZA ACO
06VZA >T
LM117H MDE
LM117H MDR
LM117H/883
ACTIVE
ACTIVE
ACTIVE
ACTIVE
DIESALE
DIESALE
TO
Y
0
0
3
3
42
42
20
20
Green (RoHS
& no Sb/Br)
Call TI
Call TI
Call TI
Call TI
Level-1-NA-UNLIM
Level-1-NA-UNLIM
Call TI
-55 to 125
-55 to 125
-55 to 125
-55 to 125
Y
Green (RoHS
& no Sb/Br)
NDT
NDT
TBD
LM117H/883 Q ACO
LM117H/883 Q >T
LM117HRLQMLV
TO
TBD
Call TI
LM117HRLQMLV
5962R9951705VXA Q
ACO
5962R9951705VXA Q
>T
LM117HRQMLV
ACTIVE
TO
NDT
3
20
TBD
Call TI
Call TI
-55 to 125
LM117HRQMLV
5962R9951703VXA Q
ACO
5962R9951703VXA Q
>T
LM117K/883
ACTIVE
ACTIVE
TO
TO
K
K
2
2
50
50
TBD
TBD
Call TI
Call TI
Call TI
Call TI
-55 to 125
-55 to 125
LM117K
/883 Q ACO
/883 Q >T
LM117KRQMLV
LM117KRQMLV
5962R99517
04VYA Q ACO
04VYA Q >T
(1) The marketing status values are defined as follows:
ACTIVE: Product device recommended for new designs.
LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.
NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design.
PREVIEW: Device has been announced but is not in production. Samples may or may not be available.
OBSOLETE: TI has discontinued the production of the device.
Addendum-Page 2
PACKAGE OPTION ADDENDUM
www.ti.com
16-Apr-2013
(2) Eco Plan - The planned eco-friendly classification: Pb-Free (RoHS), Pb-Free (RoHS Exempt), or Green (RoHS & no Sb/Br) - please check http://www.ti.com/productcontent for the latest availability
information and additional product content details.
TBD: The Pb-Free/Green conversion plan has not been defined.
Pb-Free (RoHS): TI's terms "Lead-Free" or "Pb-Free" mean semiconductor products that are compatible with the current RoHS requirements for all 6 substances, including the requirement that
lead not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, TI Pb-Free products are suitable for use in specified lead-free processes.
Pb-Free (RoHS Exempt): This component has a RoHS exemption for either 1) lead-based flip-chip solder bumps used between the die and package, or 2) lead-based die adhesive used between
the die and leadframe. The component is otherwise considered Pb-Free (RoHS compatible) as defined above.
Green (RoHS & no Sb/Br): TI defines "Green" to mean Pb-Free (RoHS compatible), and free of Bromine (Br) and Antimony (Sb) based flame retardants (Br or Sb do not exceed 0.1% by weight
in homogeneous material)
(3) MSL, Peak Temp. -- The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.
(4)
Multiple Top-Side Markings will be inside parentheses. Only one Top-Side Marking contained in parentheses and separated by a "~" will appear on a device. If a line is indented then it is a
continuation of the previous line and the two combined represent the entire Top-Side Marking for that device.
Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information
provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and
continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.
TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.
In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis.
OTHER QUALIFIED VERSIONS OF LM117QML, LM117QML-SP :
Military: LM117QML
•
Space: LM117QML-SP
•
NOTE: Qualified Version Definitions:
Military - QML certified for Military and Defense Applications
•
Space - Radiation tolerant, ceramic packaging and qualified for use in Space-based application
•
Addendum-Page 3
MECHANICAL DATA
NAJ0020A
E20A (Rev F)
www.ti.com
MECHANICAL DATA
NAC0016A
WG16A (RevG)
www.ti.com
MECHANICAL DATA
K0002C
K02C (Rev E)
4214774/A 03/2013
NOTES:
1. All linear dimensions are in millimeters. Dimensions in parenthesis are for reference only. Dimensioning and tolerancing per ASME Y14.5M.
2. This drawing is subject to change without notice.
3. Leads not to be bent greater than 15º
www.ti.com
MECHANICAL DATA
NDT0003A
H03A (Rev D)
www.ti.com
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相关型号:
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