IL79XXC
SERIES
IL7906
Electrical characteristics
(V
I
= -11V, Io = 500mA, 0°C <T
J
<+125°C unless otherwise noted)
Characteristic
Output Voltage (TJ=+25°C)
Line Regulation (Note 1)
(TJ=+25°C, Io = 100mA)
-8.0Vdc
≥
V
I
≥
-25Vdc
-9.0Vdc
≥
V
I
≥
-13Vdc
(TJ=+25°C, Io =500mA)
-8.0Vdc
≥
V
I
≥
-25Vdc
-9.0Vdc
≥
V
I
≥
-13Vdc
Load Regulation (TJ=+25°C, Note 1)
5.0mA
≤
Io
≤
1.5A
250mA
≤
Io
≤
750 mA
Output Voltage
5.0mA
≤
Io
≤
1.0A, Po
≤15
W
-8.0Vdc
≥
V
I
≥
-21Vdc
Input Bias Current (TJ=+25°C)
Input Bias Current Change
-8.0Vdc
≥
V
I
≥
-25Vdc
5.0mA
≤
Io
≤
1.5A
Output Noise Voltage (TA=+25°C)
10 Hz
≤
f
≤
100 kHz
Ripple Rejection (Io=20mA f=120Hz)
Dropout Voltage (Io=1.0A, T
J
=+25°C)
Average Temperature Coefficient of
Output Voltage Io=5.0mA, 0°C <T
J
<+125°C
Symbol
Vo
Regline
Min
-5.75
-
-
Typ
-6.0
9.0
3.0
Max
-6.25
60
30
Unit
Vdc
mV
-
-
Regload
-
-
-5.7
43
10
13
5.0
-
120
60
mV
120
60
-6.3
Vo
Vcd
I
IB
∆
I
IB
e
on
RR
V
I
-Vo
DVo/Vo
-
-
-
-
-
-
-
4.3
-
-
45
65
2.0
-1.0
8.0
1.3
0.5
-
-
-
-
mA
mA
µV
dB
Vdc
mV/°C
IL7908
Electrical characteristics
(V
I
= -14V, Io = 500mA, 0°C <T
J
<+125°C unless otherwise noted)
Characteristic
Symbol
Output Voltage (TJ=+25°C)
Line Regulation (Note 1)
(TJ=+25°C, Io = 100mA)
-10.5Vdc
≥
V
I
≥
-25Vdc
-11Vdc
≥
V
I
≥
-17Vdc
(TJ=+25°C, Io =500mA)
-10.5Vdc
≥
V
I
≥
-25Vdc
-11Vdc
≥
V
I
≥
-17Vdc
Load Regulation (TJ=+25°C, Note 1)
5.0mA
≤
Io
≤
1.5A
250mA
≤
Io
≤
750 mA
Output Voltage
5.0mA
≤
Io
≤
1.0A, Po
≤15
W
-10.5Vdc
≥
V
I
≥
-23Vdc
Input Bias Current (TJ=+25°C)
Input Bias Current Change
-10.5Vdc
≥
V
I
≥
-25Vdc
5.0mA
≤
Io
≤
1.5A
Output Noise Voltage (TA=+25°C)
10 Hz
≤
f
≤
100 kHz
Ripple Rejection (Io=20mA f=120Hz)
Dropout Voltage (Io=1.0A, T
J
=+25°C)
Average Temperature Coefficient of
Output Voltage Io=5.0mA, 0°C <T
J
<+125°C
Vo
Regline
Min
-7.7
-
-
Typ
-8.0
12
5.0
Max
-8.3
80
40
Unit
Vdc
mV
-
-
Regload
-
-
-7.6
50
22
26
9.0
-
160
80
mV
160
80
-8.4
Vo
Vcd
I
IB
∆
I
IB
e
on
RR
V
I
-Vo
DVo/Vo
-
-
-
-
-
-
-
4.3
-
-
52
62
2.0
-1.0
8.0
1.0
0.5
-
-
-
-
mA
mA
µV
dB
Vdc
mV/°C
Note:
1. Load and line regulation are specified at constant junction temperature. Changes in Vo due to heating effects must be taken into
account separately. Pulse testing with low duty cycle is used.
3