Panasonic AN79L00M 3-pin negative output voltage regulator 100ma type Datasheet

AN79L00/AN79L00M Series
3-pin Negative Output Voltage Regulator (100mA Type)
AN79L00 Series
■ Overview
Unit:mm
5.0±0.2
13.5±0.5
5.1±0.2
The AN79L00 series is 3-pin fixed negative output voltage regulator.
Stabilized fixed output voltage is obtained from unstable
DC input voltage without using any external components.
12 types of output voltage are available; –4V, –5V, –6V,
–7V, –8V, –9V, –10V, –12V, –15V, –18V, –20V and
–24V. They can be used widely in power circuits with
current capacitance up to 100mA.
4.0±0.2
+ 0.2
0.45 – 0.1
2.54
2.3±0.2
1 : Output
2 : Common
3 : Input
2 3 1
■ Features
(Bottom View)
TO-92 Package (SSIP003-P-0000)
• No external components
• Output voltage : –4V, –5V, –6V, –7V, –8V, –9V, –10V,
–12V, –15V, –18V, –20V, –24V
• Short-circuit current limiting built-in
• Thermal overload protection built-in
AN79L00M Series
Unit:mm
4.6max.
1.8max.
2.6max.
0.53max.
1.5
0.8min.
45˚
2.6
0.48max.
4.25max.
1.6max.
0.44max.
3.0
1
2
3
1 : Common
2 : Input
3 : Output
3-pin Mini Power type Plastic Package (TO-243) (SSIP003-P-0000D)
■ Block Diagram
R1
2
Common Pin Number in
1
Pin Number in
+
Voltage
Reference
Error Amp.
R2
–
3
1
Starter
Output
Q1
Thermal
Protection
Pass Tr.
Current
Limiter
RSC
2
3
Input
are for AN79L00 Series
are for AN79L00M Series
■ Absolute Maximum Ratings (Ta=25˚C)
Parameter
Symbol
Rating
–35 *1
Input voltage
VI
Power dissipation
PD
–40 *2
650 *3
Operating ambient temperature
Topr
–20 to +80
Storage temperature
AN79L00 Series
V
V
mW
˚C
–55 to +150
Tstg
AN79L00M Series
Unit
˚C
–55 to +125
*1 AN79L04/M, AN79L05/M, AN79L06/M, AN79L07/M, AN79L08/M, AN79L09/M, AN79L10/M, AN79L12/M,
AN79L15/M, AN79L18/M
*2 AN79L20/M, AN79L24/M
*3 Follow the derating curve. When Tj exceeds 150˚C, the internal circuit cuts off the output.
Mounting onto the PCB (20 × 20 × 1.7 mm glass epoxy copper foil 1 cm2 or more), for AN79L00M Series.
■ Electrical Characteristics (Ta=25˚C)
· AN79L04/AN79L04M (–4V Type)
Parameter
Symbol
Condition
Output voltage
VO
Tj=25˚C
Output voltage tolerance
VO
VI=–7 to –19V, IO=1 to 70mA
Line regulation
Load regulation
Bias current
REGIN
REGL
IBias
min
–3.84
typ
max
–4
–3.8
Unit
–4.16
V
–4.2
V
VI=–6 to –20V, Tj=25˚C
80
mV
VI=–7 to –17V, Tj=25˚C
40
mV
IO=1 to 100mA, Tj=25˚C
10
60
mV
IO=1 to 40mA, Tj=25˚C
4.5
30
mV
3
5
mA
Tj=25˚C
Input bias current fluctuation
∆Ibias (IN)
VI=–7 to –19V, Tj=25˚C
0.5
mA
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
0.1
mA
Output noise voltage
Vno
f=10Hz to 100kHz, Ta=25˚C
Ripple rejection ratio
RR
VI=–7 to –17V, f=120Hz, Ta=25˚C
Minimum input/output voltage difference
VDIF (min.)
38
55
µV
dB
Tj=25˚C
0.8
V
200
mA
– 0.4
mV/˚C
Output short circuit current
IO (Short)
VI=–35V, Tj=25˚C
Output voltage temperature coefficient
∆VO/Ta
IO=5mA
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF, CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
■ Electrical Characteristics (Ta=25˚C)
· AN79L05/AN79L05M (–5V Type)
Parameter
Symbol
Condition
Output voltage
VO
Tj=25˚C
Output voltage tolerance
VO
VI=–8 to –20V, IO=1 to 70mA
Line regulation
Load regulation
Bias current
REGIN
REGL
IBias
–4.8
max
–5
–4.75
Unit
–5.2
V
–5.25
V
100
mV
VI=–8 to –18V, Tj=25˚C
50
mV
IO=1 to 100mA, Tj=25˚C
11
60
mV
IO=1 to 40mA, Tj=25˚C
5
30
mV
Tj=25˚C
3
5
mA
0.5
mA
0.1
mA
∆Ibias (IN)
VI=–8 to –20V, Tj=25˚C
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
Output noise voltage
Vno
f=10Hz to 100kHz, Ta=25˚C
Ripple rejection ratio
RR
VI=–8 to –18V, f=120Hz, Ta=25˚C
VDIF (min.)
typ
VI=–7 to –21V, Tj=25˚C
Input bias current fluctuation
Minimum input/output voltage difference
min
µV
40
dB
55
Tj=25˚C
0.8
Output short circuit current
IO (Short)
VI=–35V, Tj=25˚C
Output voltage temperature coefficient
∆VO/Ta
IO=5mA
V
200
mA
– 0.4
mV/˚C
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF, CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
· AN79L06/AN79L06M (–6V Type)
Parameter
Symbol
Condition
Output voltage
VO
Tj=25˚C
Output voltage tolerance
VO
VI=–79to –21V, IO=1 to 70mA
Line regulation
Load regulation
Bias current
REGIN
REGL
IBias
min
–5.76
typ
max
–6
–5.7
Unit
–6.24
V
–6.3
V
VI=–8 to –22V, Tj=25˚C
120
mV
VI=–9 to –19V, Tj=25˚C
60
mV
IO=1 to 100mA, Tj=25˚C
12
60
mV
IO=1 to 40mA, Tj=25˚C
5.5
30
mV
5
mA
Input bias current fluctuation
∆Ibias (IN)
VI=–9 to –21V, Tj=25˚C
0.5
mA
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
0.1
mA
Output noise voltage
Ripple rejection ratio
Minimum input/output voltage difference
Vno
f=10Hz to 100kHz, Ta=25˚C
RR
VI=–9 to –19V, f=120Hz, Ta=25˚C
VDIF (min.)
3
Tj=25˚C
44
55
µV
dB
Tj=25˚C
0.8
V
Output short circuit current
IO (Short)
VI=–35V, Tj=25˚C
200
mA
Output voltage temoerature coefficient
∆VO/Ta
IO=5mA
–0.4
mV/˚C
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF, CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
■ Electrical Characteristics (Ta=25˚C)
· AN79L07/AN79L07M (–7V Type)
Parameter
Symbol
Condition
min
Output voltage
VO
Tj=25˚C
–6.72
Output voltage tolerance
VO
VI=–10 to –22V, IO=1 to 70mA
–6.65
Line regulation
Load regulation
Bias current
REGIN
REGL
IBias
typ
max
–7
Unit
–7.28
V
–7.35
V
VI=–9 to –23V, Tj=25˚C
140
mV
VI=–10 to –20V, Tj=25˚C
70
mV
IO=1 to 100mA, Tj=25˚C
13
70
mV
IO=1 to 40mA, Tj=25˚C
6
40
mV
Tj=25˚C
3
5
mA
Input bias current fluctuation
∆Ibias (IN)
VI=–10 to –22V, Tj=25˚C
0.5
mA
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
0.1
mA
Output noise voltage
Vno
f=10Hz to 100kHz, Ta=25˚C
Ripple rejection ratio
RR
VI=–10 to –20V, f=120Hz, Ta=25˚C
Minimum input/output voltage difference
VDIF (min.)
µV
48
dB
54
Tj=25˚C
0.8
V
200
mA
– 0.5
mV/˚C
Output short circuit current
IO (Short)
VI=–35V, Tj=25˚C
Output voltage temperature coefficient
∆VO/Ta
IO=5mA
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF, CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
· AN79L08/AN79L08M (–8V Type)
Parameter
Symbol
Condition
Output voltage
VO
Tj=25˚C
Output voltage tolerance
VO
VI=–11 to –23V, IO=1 to 70mA
Line regulation
Load regulation
Bias current
REGIN
REGL
IBias
max
–8
–7.6
Unit
–8.32
V
–8.4
V
160
mV
VI=–11 to –21V, Tj=25˚C
80
mV
IO=1 to 100mA, Tj=25˚C
15
80
mV
IO=1 to 40mA, Tj=25˚C
7
40
mV
Tj=25˚C
3
5
mA
0.5
mA
0.1
mA
∆Ibias (IN)
VI=–11 to –23V, Tj=25˚C
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
Output noise voltage
Vno
f=10Hz to 100kHz, Ta=25˚C
Ripple rejection ratio
RR
VI=–11 to –21V, f=120Hz, Ta=25˚C
VDIF (min.)
typ
VI=–10 to –24V, Tj=25˚C
Input bias current fluctuation
Minimum input/output voltage difference
min
–7.68
Tj=25˚C
Output short circuit current
IO (Short)
VI=–35V, Tj=25˚C
Output voltage temperature coefficient
∆VO/Ta
IO=5mA
52
54
µV
dB
0.8
V
200
mA
– 0.6
mV/˚C
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF, CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
■ Electrical Characteristics (Ta=25˚C)
· AN79L09/AN79L09M (–9V Type)
Prameter
Symbol
Condition
min
Output voltage
VO
Tj=25˚C
–8.64
Output voltage tolerance
VO
VI=–12 to –24V, IO=1 to 70mA
–8.55
Line regulation
Load regulation
Bias current
REGIN
REGL
IBias
typ
max
–9
Unit
–9.36
V
–9.45
V
VI=–11 to –25V, Tj=25˚C
160
mV
VI=–12 to –22V, Tj=25˚C
80
mV
IO=1 to 100mA, Tj=25˚C
16
90
mV
IO=1 to 40mA, Tj=25˚C
8
50
mV
Tj=25˚C
3
5
mA
Input bias current fluctuation
∆Ibias (IN)
VI=–12 to –24V, Tj=25˚C
0.5
mA
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
0.1
mA
Output noise voltage
Vno
f=10Hz to 100kHz, Ta=25˚C
Ripple rejection ratio
RR
VI=–12 to –22V, f=120Hz, Ta=25˚C
Minimum input/output voltage difference
VDIF (min.)
µV
58
dB
53
Tj=25˚C
0.8
V
200
mA
– 0.6
mV/˚C
Output short circuit current
IO (Short)
VI=–35V, Tj=25˚C
Output voltage temperature coefficient
∆VO/Ta
IO=5mA
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF and CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
· AN79L10/AN79L10M (–10V Type)
Patameter
Symbol
Condition
min
Output voltage
VO
Tj=25˚C
–9.6
Output voltage tolerance
VO
VI=–13 to –25V, IO=1 to 70mA
–9.5
Line regulation
Load regulation
Bias current
REGIN
REGL
IBias
typ
max
–10
Unit
–10.4
V
–10.5
V
VI=–12 to –26V, Tj=25˚C
160
mV
VI=–13 to –23V, Tj=25˚C
80
mV
IO=1 to 100mA, Tj=25˚C
17
100
mV
IO=1 to 40mA, Tj=25˚C
9
50
mV
Tj=25˚C
3
5
mA
Input bias current fluctuation
∆Ibias (IN)
VI=–13 to –25V, Tj=25˚C
0.5
mA
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
0.1
mA
Output noise voltage
Ripple rejection
Minimum input/output voltage difference
Vno
f=10Hz to 100kHz, Ta=25˚C
RR
VI=–13 to –23V, f=120Hz, Ta=25˚C
VDIF (min.)
65
µV
dB
53
Tj=25˚C
0.8
V
200
mA
– 0.7
mV/˚C
Ouptput short circuit current
IO (Short)
VI=–35V, Tj=25˚C
Output voltage temperature coefficient
∆VO/Ta
IO=5mA
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF, CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
■ Electrical Characteristics (Ta=25˚C)
· AN79L12/AN79L12M (–12V Type)
Parameter
Symbol
Condition
min
Output voltage
VO
Tj=25˚C
–11.5
Output voltage tolerance
VO
VI=–15 to –27V, IO=1 to 70mA
–11.4
Line regulation
Load regulation
Bias current
REGIN
REGL
IBias
typ
max
–12
Unit
–12.5
V
–12.6
V
VI=–14.5 to –30V, Tj=25˚C
200
mV
VI=–15 to –25V, Tj=25˚C
100
mV
IO=1 to 100mA, Tj=25˚C
20
100
mV
IO=1 to 40mA, Tj=25˚C
10
50
mV
3
5
mA
Tj=25˚C
Input bias current fluctuation
∆Ibias (IN)
VI=–15 to –27V, Tj=25˚C
0.5
mA
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
0.1
mA
Output noise voltage
Vno
f=10Hz to 100kHz, Ta=25˚C
Ripple rejection ratio
RR
VI=–15 to –25V, f=120Hz, Ta=25˚C
Minimum input/output voltage difference
VDIF (min.)
µV
75
dB
52
Tj=25˚C
0.8
V
200
mA
– 0.8
mV/˚C
Output short circuit current
IO (Short)
VI=–35V, Tj=25˚C
Output voltage temperature
∆VO/Ta
IO=5mA
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF, CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
· AN79L15T/AN79L15M (–15V Type)
Parameter
Symbol
Condition
Ouyput voltage
VO
Tj=25˚C
Output voltage tolerance
VO
VI=–18 to –28V, IO=1 to 70mA
Line regulation
Load regulation
Bias current
REGIN
REGL
IBias
max
–15
–14.25
Unit
–15.6
V
–15.75
V
200
mV
VI=–18 to –28V, Tj=25˚C
100
mV
IO=1 to 100mA, Tj=25˚C
25
130
mV
IO=1 to 40mA, Tj=25˚C
12
60
mV
3
5
mA
0.5
mA
0.1
mA
Tj=25˚C
∆Ibias (IN)
VI=–18 to –30V, Tj=25˚C
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
Output noise voltage
Vno
f=10Hz to 100kHz, Ta=25˚C
Ripple rejection ratio
RR
VI=–18 to –28V, f=120Hz, Ta=25˚C
VDIF (min.)
typ
VI=–17.5 to –33V, Tj=25˚C
Input bias current fluctuation
Minimum input/output voltage difference
min
–14.4
Tj=25˚C
Output short circuit current
IO (Short)
VI=–35V, Tj=25˚C
Output voltage temperature coefficient
∆VO/Ta
IO=5mA
90
51
µV
dB
0.8
V
200
mA
– 0.9
mV/˚C
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF, CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
■ Electrical Characteristics (Ta=25˚C)
· AN79L18T/AN79L18M (–18V Type)
Parameter
Symbol
Condition
min
Output voltage
VO
Tj=25˚C
–17.3
Output voltage tolerance
VO
VI=–21 to –33V, IO=1 to 70mA
–17.1
Line regulation
Load regulation
Bias current
REGIN
REGL
IBias
typ
max
–18
Unit
–18.7
V
–18.9
V
VI=–21 to –33V, Tj=25˚C
200
mV
VI=–21 to –32V, Tj=25˚C
100
mV
IO=1 to 100mA, Tj=25˚C
30
160
mV
IO=1 to 40mA, Tj=25˚C
15
80
mV
3
5
mA
Tj=25˚C
Input bias current fluctuation
∆Ibias (IN)
VI=–21 to –33V, Tj=25˚C
0.5
mA
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
0.1
mA
Output noise voltage
Vno
f=10Hz to 100kHz, Ta=25˚C
Ripple rejection ratio
RR
VI=–22 to –32V, f=120Hz, Ta=25˚C
Minimum input/output voltage difference
VDIF (min.)
µV
110
dB
50
Tj=25˚C
0.8
V
200
mA
–1
mV/˚C
Output short circuit current
IO (Short)
VI=–35V, Tj=25˚C
Output voltage temperature coefficient
∆VO/Ta
IO=5mA
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF, CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
· AN79L20T/AN79L20M (–20V Type)
Parameter
Symbol
Condition
Output voltage
VO
Tj=25˚C
Output voltage tolerance
VO
VI=–23 to –35V, IO=1 to 70mA
Line regulation
Load regulation
Bias current
REGIN
REGL
IBias
max
–20
–19
Unit
–20.8
V
–21
V
200
mV
VI=–24 to –34V, Tj=25˚C
100
mV
IO=1 to 100mA, Tj=25˚C
35
180
mV
IO=1 to 40mA, Tj=25˚C
17
90
mV
3
5
mA
0.5
mA
0.1
mA
Tj=25˚C
∆Ibias (IN)
VI=–23 to –35V, Tj=25˚C
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
Output noise voltage
Vno
f=10Hz to 100kHz, Ta=25˚C
Ripple rejection ratio
RR
VI=–24 to –34V, f=120Hz, Ta=25˚C
VDIF (min.)
typ
VI=–23 to –35V, Tj=25˚C
Input bias current fluctuation
Minimum input/output voltage difference
min
–19.2
135
49
µV
dB
Tj=25˚C
0.8
200
mA
–1
mV/˚C
Output short circuit current
IO (Short)
VI=–35V, Tj=25˚C
Output voltage temperature coefficient
∆VO/Ta
IO=5mA
V
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF, CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
■ Electrical Characteristics (Ta=25˚C)
· AN79L24/AN79L24M (–24V Type)
Parameter
Symbol
Condition
min
Output voltage
VO
Tj=25˚C
Output voltage tolerance
VO
VI=–27 to –38V, IO=1 to 70mA
Line regulation
REGIN
Load regulation
REGL
Bias current
IBias
–22.8
Unit
–25
V
–25.2
V
200
mV
VI=–27 to –37V, Tj=25˚C
100
mV
IO=1 to 100mA, Tj=25˚C
40
200
mV
IO=1 to 40mA, Tj=25˚C
20
100
mV
3
5
mA
0.5
mA
0.1
mA
Tj=25˚C
∆Ibias (IN)
VI=–27 to –38V, Tj=25˚C
Load bias current fluctuation
∆Ibias (L)
IO=1 to 40mA, Tj=25˚C
Output noise voltage
Vno
f=10Hz to 100kHz, Ta=25˚C
Ripple rejection ratio
RR
VI=–28 to –38V, f=120Hz, Ta=25˚C
VDIF (min.)
max
–24
VI=–27 to –38V, Tj=25˚C
Input bias current fluctuation
Minimum input/output voltage difference
typ
–23
µV
170
dB
49
Tj=25˚C
0.8
200
mA
–1
mV/˚C
Output short circuit current
IO (Short)
VI=–35V, Tj=25˚C
Output voltage temperature coefficient
∆VO/Ta
IO=5mA
V
Note 1) The specified condition Tj=25˚C means that the test should be carried out with the test time so short (within 10ms) that the
drift in characteristic value due to the rise in chip junction temperature can be ignored.
Note 2) When not specified, VI=–9V, IO=40mA, CI=2µF, CO=1µF, Tj=0 to 125˚C (AN79L04)
and Tj=0 to 100˚C (AN79L04)
■ Basic Regulator Circuit
–VI Input
■ Application Circuit
Output
–VO
Input
–VI
1
3
–
+
2
1
Output
–VO
AN79L00
AN79L00
CI
3
–
CO
Common +
2µF
–
+
R2
2
VO´
Common
IQ
CI is connected when the input line is long. 2µF
CO improves the transient Response. 1µF
–
+
R1
R
|VO|= VO´ 1 + R1 + IQR1
2
1µF
■ Characteristic Curve
PD –Ta (AN79L00 Series)
PD –Ta (AN79L00 M Series)
Power Dissipation PD (W)
0.8
Power Dissipation PD (W)
VO – Tj
1.0
0.6
0.4
0.2
–5.12
Mounting onto the PCB,
20 × 20 × 1.7mm
Glass Epoxy Substrate,
Copper Foil 1cm2 or More
0.8
AN79L05
VI=–10V
IO=1mA
–5.08
Output Voltage VO (V)
1.0
0.6
0.4
–5.04
–5.00
–4.96
–4.92
–4.88
0.2
–4.84
0
20
40
60
80 100 120 140 160
0
20
40
60
80 100 120 140 160
Ambient Temperature Ta (˚C)
Ambient Temperature Ta (˚C)
VDIF (min.) – Tj
Input Transient Response
1.4
AN79L05
1.2
10
20
mA
IO =
10
IO = mA
1m
A
0.8
0.6
0.4
–50
0
50
100
150
Junction Temperature Tj (˚C)
RR– f
120
Ripple Rejection Ratio RR (dB)
AN79L05
IO=5mA
100
80
60
40
20
0
10
100
1k
10k
Frequency f (Hz)
100k
Output Voltage Fluctuation (mV)
IO=100mA
IO =
5
10
0
–10
–20
0
2
4
6
Time t (µs)
8
25
50
75
100
125
Load Transient Response
15
1.0
0
Junction Temperature Tj (˚C)
20
AN79L05
–4.80
–25
10
AN79L05
200
100
0
1
0
–1
–2
0
10
20
30
Time t (µs)
40
50
Load Current IO (mA)
Minimum Input/Output Voltage Difference VDIF (min.) (V)
0
Input Voltage VI (V)
Output Voltage Fluctuation (V)
0
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