ZETEX ZSR

ZSR
SERIES
2.85 TO 12 VOLT FIXED POSITIVE
LOCAL VOLTAGE REGULATOR
DEVICE DESCRIPTION
FEATURES
The ZSR Series three terminal fixed positive voltage
• Small outline SO8 and SOT223 package
regulators feature internal circuit current limit and
•
thermal shutdown making the devices difficult to
TO92 package
destroy. The circuit design allows creation of any
• 2.85 to 12 Volt
custom voltage in the range 2.85 to 12 volts. The
• Output current up to 200mA
devices are available in a small outline surface mount
• Tight initial tolerance
package, ideal for applications where space saving is
important, as well as through hole TO92 style
• Low quiescent current
packaging. The devices are suited to local voltage
• -55 to 125°C temperature range
regulation applications, where problems could be
• No external components
encountered with distributed single source regulation,
a s w e l l a s m ore ge ner a l vol t age r e g u l a t i o n
• Internal thermal shutdown
applications.
• Internal short circuit current limit
The ZSR Series show performance characteristics
VOLTAGE RANGE
superior to other local voltage regulators. The initial
output voltage is maintained to within 2.5% with a
ZSR285
2.85V
quiescent current of typically 350µA. Output voltage
ZSR300
3.0V
change, with input voltage and load current, is much
ZSR330
3.3V
lower than competitive devices. The ZSR devices are
ZSR400
4.0V
completely stable with no external components.
ZSR485
4.85V
ZSR500
5.0V
ZSR520
5.2V
ZSR570
5.7V
ZSR600
6.0V
ZSR700
7.0V
ZSR800
8.0V
ZSR850
8.5V
ISSUE 3 - SEPTEMBER 2001
1
ZSR900
9.0V
ZSR1000
10.0V
ZSR1200
12.0V
ZSR
SERIES
ABSOLUTE MAXIMUM RATING
Input voltage
20V
Output Current(Io)
200mA
Power Dissipation (Tamb=25°C)
SOT223
2W(Note 3)
Operating Temperature
-55 to 125°C
TO92
600mW
Storage Temperature
-65 to 150°C
S08
780mW(Note 3)
ELECTRICAL CHARACTERISTICS
Notes:
3. Maximum power dissipation, for the SOT223 and
SO8 packages, is calculated assuming that the device
is mounted on a PCB measuring 2 inches square.
4. The shut down feature of the device operates if its
temperature exceeds its design limit as might occur
during external faults, short circuits etc. If the
regulator is supplied from an inductive source then a
large voltage transient, on the regulator input, can
result should the shut down circuit operate. It is
advised that a capacitor (1µF or greater) should be
applied across the regulator input to ensure that the
maximum voltage rating of the device is not
exceeded under shutdown conditions.
1. The maximum operating input voltage and output
current of the device will be governed by the
maximum power dissipation of the selected package.
Maximum package power dissipation is specified at
25 °C and must be linearly derated to zero at
Tamb=125°C.
2. The following data represents pulse test conditions
with junction temperatures as indicated at the
initiation of the test. Continuous operation of the
devices with the stated conditions might exceed the
power dissipation limits of the chosen package.
ZSR285 TEST CONDITIONS (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=6.85V
SYMBOL PARAMETER
VO
CONDITIONS
MIN.
TYP.
MAX.
UNITS
2.78
2.85
2.92
V
τ 2.736
2.964
V
Vin =4.85 to 20V
2.736
IO =1 to 100mA τ
2.964
V
Output Voltage
IO =1 to 200mA
∆VO
Line Regulation
V =4.85 to 20V
10
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
5
2
25
mV
mV
lq
Quiescent Current
τ
350
600
µA
∆lq
Quiescent Current
Change
I O =1 to 200mA
V in =4.85 to 20V
100
100
µA
µA
Vn
Output Noise Voltage
f=10Hz to 10kHz
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
in
V in =5.85 to 18V
f=120Hz
Input Voltage Required
To Maintain Regulation
Average Temperature
Coefficient of V O
I O =5.0mA
75
µV rms
48
62
dB
4.85
4.55
V
0.1
mV/°C
τ
␶=Tj=-55 to 125°C
ISSUE 3 - SEPTEMBER 2001
2
ZSR
SERIES
ZSR300 TEST CONDITIONS (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=7V
SYMBOL PARAMETER
VO
CONDITIONS
Output Voltage
MIN.
TYP.
MAX.
UNITS
2.92
3.0
3.08
V
I O =1 to 200mA
τ 2.88
3.12
V
Vin =5 to 20V
IO =1 to 100mA
2.88
3.12
V
τ
∆VO
Line Regulation
V =5 to 20V
10
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
5
2
25
mV
mV
Quiescent Current
τ
350
600
µA
100
100
µA
µA
lq
in
∆lq
Quiescent Current Change I O =1 to 200mA
V in =5 to 20V
Vn
Output Noise Voltage
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
75
µV rms
48
62
dB
5
4.7
V
0.1
mV/°C
f=10Hz to 10kHz
V in =6 to 18V
f=120Hz
I O =5.0mA
τ
ZSR330 TEST CONDITIONS (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=7.3V
SYMBOL PARAMETER
VO
CONDITIONS
MIN.
TYP.
3.218
3.3
3.382
V
I O =1 to 200mA τ
3.168
3.432
V
V in =5.3 to 20V
I O =1 to 100mA τ
3.168
3.432
V
Output Voltage
MAX.
UNITS
∆VO
Line Regulation
V =5.3 to 20V
7.5
30
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
5
2
25
mV
mV
Quiescent Current
τ
350
600
µA
100
100
µA
µA
lq
in
∆lq
Quiescent Current Change I O =1 to 200mA
V in =5.3 to 20V
Vn
Output Noise Voltage
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
50
µV rms
50
64
dB
5.3
5
V
0.1
mV/°C
f=10Hz to 10kHz
V in =6.3 to 18V
f=120Hz
I O =5.0mA τ
␶=Tj=-55 to 125°C
ISSUE 3 - SEPTEMBER 2001
3
ZSR
SERIES
ZSR400 TEST CONDITIONS (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=8V
SYMBOL PARAMETER
VO
CONDITIONS
Output Voltage
MIN.
TYP.
MAX.
UNITS
3.9
4.0
4.1
V
IO =1 to 200mA
τ 3.84
4.16
V
Vin =6 to 20V
IO =1 to 100mA
τ
3.84
4.16
V
∆VO
Line Regulation
V =6 to 20V
10
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
5
2
25
mV
mV
lq
Quiescent Current
τ
350
600
µA
∆lq
Quiescent Current
Change
I O =1 to 200mA
V in =6 to 20V
100
100
µA
µA
Vn
Output Noise Voltage
f=10Hz to 10kHz
∆Vin /∆VO Ripple Rejection
Vin
in
V in =7 to 18V
f=120Hz
Input Voltage Required
To Maintain Regulation
75
µV rms
48
62
dB
6
5.3
V
ZSR485 TEST CONDITIONS (Unless otherwise stated): Tj=25°C, IO=100mA, Vin=8.85V
SYMBOL PARAMETER
VO
CONDITIONS
Output Voltage
MIN.
TYP.
MAX.
UNITS
4.729
4.85
4.971
V
IO =1 to 200mA
τ 4.656
5.044
V
V in =6.8 to 20V
IO =1 to 100mA
4.656
5.044
V
τ
∆VO
Line Regulation
V =6.85 to 20V
10
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
5
2
25
mV
mV
lq
Quiescent Current
τ
350
600
µA
∆lq
Quiescent Current
Change
I O =1 to 200mA
V in =6.85 to 20V
100
100
µA
µA
Vn
Output Noise Voltage
f=10Hz to 10kHz
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
in
V in =7.85 to 18V
f=120Hz
Input Voltage Required
To Maintain Regulation
Average Temperature
Coefficient of V O
I O =5.0mA
τ
50
µV rms
50
64
dB
6.85
6.55
V
0.1
mV/°C
␶ =Tj = -55 to 125°C
ISSUE 3 - SEPTEMBER 2001
4
ZSR
SERIES
ZSR1000 TEST CONDITIONS (Unless otherwise stated): Tj=25°C, IO=100mA, Vin=14V
SYMBOL PARAMETER
VO
CONDITIONS
MIN.
TYP.
9.75
10
10.25
V
I O =1 to 200mA τ
9.6
10.4
V
V in =12 to 20V
I O =1 to 100mA τ
9.6
10.4
V
Output Voltage
MAX.
UNITS
∆VO
Line Regulation
V =12 to 20V
12
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
9
3
30
mV
mV
350
in
Quiescent Current
τ
∆lq
Quiescent Current Change
I O =1 to 200mA
V in =12 to 20V
Vn
Output Noise Voltage
f=10Hz to 10kHz
lq
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
V in =13 to 18V
f=120Hz
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
600
µA
100
100
µA
µA
150
µV rms
43
57
dB
12
11.7
V
I O =5.0mA τ
0.25
mV/°C
ZSR1200 TEST CONDITIONS (Unless otherwise stated): Tj=25°C, IO=100mA, Vin=16V
SYMBOL PARAMETER
VO
CONDITIONS
MIN.
TYP.
11.7
12
12.3
V
I O =1 to 200mA τ
11.52
12.48
V
V in =14 to 20V
I O =1 to 100mA τ
11.52
12.48
V
Output Voltage
MAX.
UNITS
∆VO
Line Regulation
V =14 to 20V
12
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
9
3
30
mV
mV
350
in
Quiescent Current
τ
∆lq
Quiescent Current Change
I O =1 to 200mA
V in =14 to 20V
Vn
Output Noise Voltage
f=10Hz to 10kHz
lq
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
V in =15 to 18V
f=120Hz
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
I O =5.0mA τ
τ =Tj = -55 to 125 °C
ISSUE 3 - SEPTEMBER 2001
5
600
µA
100
100
µA
µA
150
µV rms
43
57
dB
14
13.7
V
0.25
mV/°C
ZSR
SERIES
ZSR285 ZSR300 ZSR400
ZSR570 ZSR900
TYPICAL CHARACTERISTICS
90
Io = 100mA
VIN = VOUT+ 4V
1.0
ZSR900
ZSR570
ZSR400
ZSR300
ZSR285
0.1
Io = 100mA
Vin = Vout + 3V
DVin = 200mV p/p
80
Ripple Rejection (dB)
Output Impedance (Ohms)
10
70
60
50
ZSR285
ZSR300
ZSR400
40
ZSR570
ZSR900
30
20
10
0
10
0.01
100
1K
100K
10K
INPUT VOLTAGE
(VO + 9)
(VO + 4)
+0.5
OUTPUT VOLTAGE
DEVIATION
0
IO = 100mA
COUT = 0
dVIN /dt = 5V/µs
-1.0
0
10
30
0
+0.5
OUTPUT VOLTAGE
DEVIATION
0
-0.5
40
50
V IN = Vo+ 4V
COUT= 0
dIo /dt = 1A/µs
0
10
20
Thermal Resistance (˚ C/W)
Thermal Resistance (˚ C/W)
140
TO92 PACKAGE
120
100
D=0.5
80
60
D=0.2
D=0.1
48
40
1m
D=1
SOT223 PACKAGE
D=0.5
24
16
D=0.2
D=0.1
8
D=0.05
D=0
D=0
0
50
32
D=0.05
0
40
Load Transient Response
D=1
20
30
Time (us)
Line Transient Response
40
100K
100 mA
Time (us)
160
10K
LOAD CURRENT
-1.0
20
1K
Ripple Rejection v Ripple Frequency
Output Voltage Deviation (V)
Output Voltage Deviation (V)
Output Impedance v Frequency
-0.5
100
Ripple Frequency (Hz)
Frequency (Hz)
0
10m 100m
1
1m
10
Pulse Width (s)
10m 100m
1
10
Pulse Width(s)
Thermal Resistance v Pulse Width
Thermal Resistance v Pulse Width
ISSUE 3 - SEPTEMBER 2001
6
ZSR
SERIES
ZSR285 ZSR300 ZSR400
ZSR570 ZSR900
TYPICAL CHARACTERISTICS
5.72
ZSR300
3.00
5.70
2.99
5.68
2.98
Output Voltage (V)
Output Voltage (V)
3.01
Io= 5mA
Vin= Vo+ 4V
2.86
2.85
ZSR570
5.66
Io= 5mA
Vin= Vo+ 4V
4.00
3.98
2.84
2.82
3.96
ZSR400
ZSR285
3.94
-50
-25
0
25
50
75 100 125
-50
-25
Output Voltage Temperature Coefficient
50
100 125
75
450
ZSR900
Io= 0
Vin=Vo+ 4V
Io= 5mA
Quiescent Current (µA)
Vin= Vo+ 4V
Output Voltage (V)
25
Output Voltage Temperature Coefficient
9.08
9.04
9.00
8.96
8.92
400
350
300
250
-50
-25
0
25
50
75 100 125
-50
-25
Temperature (˚C)
25
50
100 125
75
Quiescent Current v Temperature
2.5
400
2.0
Drop-Out Voltage (V)
500
300
200
Vo=0
Vin=10V
100
0
Temperature (˚C)
Output Voltage Temperature Coefficient
Short-Circuit Output Current (mA)
0
Temperature (˚C)
Temperature (˚C)
0
Io=200mA
1.5
Io=100mA
1.0
0.5
0
-50
-25
0
25
50
75
100 125
-50
Temperature (˚C)
-25
0
25
50
75
100 125
Temperature (˚C)
Peak Output Current v Temperature
ISSUE 3 - SEPTEMBER 2001
7
Drop-Out Voltage v Temperature
ZSR
SERIES
ZSR570 TEST CONDITIONS (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=9.7V
SYMBOL PARAMETER
VO
CONDITIONS
Output Voltage
MIN.
Typ.
MAX.
UNITS
5.557
5.7
5.843
V
τ
5.47
5.93
V
V in =7.7 to 20V
I O =1 to 100mA τ
5.47
5.93
V
IO =1 to 200mA
∆VO
Line Regulation
V =7.7 to 20V
10
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
7
2.5
30
mV
mV
350
in
Quiescent Current
τ
∆lq
Quiescent Current Change
I O =1 to 200mA
V in =7.7 to 20V
Vn
Output Noise Voltage
f=10Hz to 10kHz
lq
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
V in =8.7 to 18V
f=120Hz
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
48
7.7
I O =5.0mA
τ
600
µA
100
100
µA
µA
90
µV rms
62
dB
7.4
V
0.15
mV/°C
ZSR600 TEST CONDITIONS (Unless otherwise stated): Tj=25°C, IO=100mA, Vin=10V
SYMBOL PARAMETER
VO
CONDITIONS
Output Voltage
MIN.
TYP.
MAX.
UNITS
5.85
6
6.15
V
I O =1 to 200mA τ
5.76
6.24
V
V in =8 to 20V
I O =1 to 100mA τ
5.76
6.24
V
∆VO
Line Regulation
V =8 to 20V
10
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
7
2.5
30
mV
mV
Quiescent Current
τ
350
600
µA
∆lq
Quiescent Current Change
I O =1 to 200mA
V in =8 to 20V
100
100
µA
µA
Vn
Output Noise Voltage
lq
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
in
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
90
µV rms
48
62
dB
8
7.7
V
0.15
mV/°C
f=10Hz to 10kHz
V in =9 to 18V
f=120Hz
I O =5.0mA τ
τ =Tj = -55 to 125 °C
ISSUE 3 - SEPTEMBER 2001
8
ZSR
SERIES
ZSR500 TEST CONDITIONS (Unless otherwise stated): Tj=25°C, IO=100mA, Vin=9V
SYMBOL PARAMETER
VO
CONDITIONS
Output Voltage
MIN.
TYP.
MAX.
UNITS
4.875
5
5.125
V
I O =1 to 200mA τ
4.8
5.2
V
V in =7 to 20V
I O =1 to 100mA τ
4.8
5.2
V
∆VO
Line Regulation
V =7 to 20V
10
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
5
2
25
mV
mV
350
in
Quiescent Current
τ
∆lq
Quiescent Current Change
I O =1 to 200mA
V in =7 to 20V
Vn
Output Noise Voltage
f=10Hz to 10kHz
lq
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
V in =8 to 18V
f=120Hz
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
600
µA
100
100
µA
µA
75
µV rms
48
62
dB
7
6.7
V
0.1
mV/°C
I O =5.0mA τ
ZSR520 TEST CONDITIONS (Unless otherwise stated): Tj=25°C, IO=100mA, Vin=9.2V
SYMBOL PARAMETER
VO
CONDITIONS
MIN.
TYP.
5.070
5.2
5.330
V
I O =1 to 200mA τ
4.99
5.41
V
V in =7.2 to 20V
I O =1 to 100mA τ
4.99
5.41
V
Output Voltage
MAX.
UNITS
∆VO
Line Regulation
V =7.2 to 20V
10
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
5
2
25
mV
mV
350
600
µA
100
100
µA
µA
in
Quiescent Current
τ
∆lq
Quiescent Current Change
I O =1 to 200mA
V in =7.2 to 20V
Vn
Output Noise Voltage
f=10Hz to 10kHz
lq
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
V in =8.2 to 18V
f=120Hz
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
I O =5.0mA τ
␶ =Tj = -55 to 125 °C
ISSUE 3 - SEPTEMBER 2001
9
75
µV rms
48
62
dB
7.2
6.9
V
0.1
mV/°C
ZSR
SERIES
ZSR850 TEST CONDITIONS (Unless otherwise stated): Tj=25°C, IO=100mA, Vin=12.5V
SYMBOL PARAMETER
VO
CONDITIONS
Output Voltage
MIN.
TYP.
MAX.
UNITS
8.288
8.5
8.712
V
I O =1 to 200mA τ
8.16
8.84
V
V in =10 to 20V
I O =1 to 100mA τ
8.16
8.84
V
∆VO
Line Regulation
V =10.5 to 20V
11
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
8
3
30
mV
mV
Quiescent Current
τ
350
600
µA
∆lq
Quiescent Current Change
I O =1 to 200mA
V in =10.5 to 20V
100
100
µA
µA
Vn
Output Noise Voltage
f=10Hz to 10kHz
lq
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
in
V in =11.5 to 18V
f=120Hz
44
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
10.5
I O =5.0mA τ
115
µV rms
60
dB
10.2
V
0.25
mV/°C
ZSR900 TEST CONDITIONS (Unless otherwise stated): Tj=25°C, IO=100mA, Vin=13V
SYMBOL PARAMETER
VO
CONDITIONS
Output Voltage
IO =1 to 200mA
τ
Vin =11 to 20V
IO =1 to 100mA
τ
MIN.
TYP.
8.775
9.0
MAX.
UNITS
9.225
V
8.64
9.36
V
8.64
9.36
V
∆VO
Line Regulation
V =11 to 20V
12
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
9
3
30
mV
mV
350
600
µA
100
100
µA
µA
in
Quiescent Current
τ
∆lq
Quiescent Current Change
I O =1 to 200mA
V in =11 to 20V
Vn
Output Noise Voltage
lq
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
150
µV rms
43
57
dB
11
10.7
V
f=10Hz to 10kHz
V in =12 to 18V
f=120Hz
I O =5.0mA
τ
0.25
mV/°C
␶=Tj = -55 to 125°C
ISSUE 3 - SEPTEMBER 2001
10
ZSR
SERIES
ZSR330 ZSR500 ZSR600
ZSR800 ZSR1000
TYPICAL CHARACTERISTICS
ISSUE 3 - SEPTEMBER 2001
11
ZSR
SERIES
ZSR330 ZSR500 ZSR600
ZSR800 ZSR1000
TYPICAL CHARACTERISTICS
4-38
ISSUE 3 - SEPTEMBER 2001
12
ZSR
SERIES
ZSR700 TEST CONDITIONS (Unless otherwise stated): Tj=25°C, IO=100mA, Vin=11V
SYMBOL PARAMETER
VO
CONDITIONS
Output Voltage
MIN.
TYP.
MAX.
UNITS
6.825
7
7.175
V
I O =1 to 200mA τ
6.72
7.28
V
V in =9 to 20V
I O =1 to 100mA τ
6.72
7.28
V
∆VO
Line Regulation
V =9 to 20V
10
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
5
2
25
mV
mV
Quiescent Current
τ
350
lq
in
∆lq
Quiescent Current Change I O =1 to 200mA
V in =9 to 20V
Vn
Output Noise Voltage
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
µA
µA
µA
75
µV rms
48
62
dB
9
8.7
V
0.1
mV/°C
f=10Hz to 10kHz
V in =10 to 18V
f=120Hz
600
100
100
I O =5.0mA τ
ZSR800 TEST CONDITIONS (Unless otherwise stated): Tj=25°C, IO=100mA, Vin=12V
SYMBOL PARAMETER
VO
CONDITIONS
Output Voltage
MIN.
TYP.
MAX.
UNITS
7.8
8
8.2
V
I O =1 to 200mA τ
7.68
8.32
V
V in =10 to 20V
I O =1 to 100mA τ
7.68
8.32
V
∆VO
Line Regulation
V =10 to 20V
11
40
mV
∆VO
Load Regulation
I =1 to 200mA
O
I O =1 to 100mA
8
3
30
mV
mV
Quiescent Current
τ
350
600
µA
100
100
µA
µA
lq
in
∆lq
Quiescent Current Change I O =1 to 200mA
V in =10 to 20V
Vn
Output Noise Voltage
∆Vin /∆VO Ripple Rejection
Vin
∆VO /∆T
f=10Hz to 10kHz
V in =11 to 18V
f=120Hz
Input Voltage Required To
Maintain Regulation
Average Temperature
Coefficient of V O
44
10
I O =5.0mA τ
␶ =Tj = -55 to 125°C
ISSUE 3 - SEPTEMBER 2001
13
115
µV rms
60
dB
9.7
V
0.25
mV/°C
ZSR
SERIES
ZSR485 ZSR520 ZSR700
ZSR850 ZSR1200
TYPICAL CHARACTERISTICS
4.90
7.10
ZSR485
Output Voltage (V)
4.85
Io = 10mA
Vin = Vout + 4v
ZSR700
Io = 10mA
Vin = Vout + 4v
7.00
6.90
4.80
8.55
5.25
ZSR850
8.50
ZSR520
5.20
8.45
5.15
-50 -25
0 25 50 75 100125
-50 -25
Temperature (°C)
0 25 50 75 100125
Temperature (°C)
Output Voltage Temperature Coefficient
Output Voltage Temperature Coefficient
500
Io = 10mA
Vin = Vout + 4v
12.10
450
Output Voltage (V)
12.05
ZSR1200
12.00
400
11.95
350
11.90
300
-50 -25
0 25 50 75 100125
-50 -25
Temperature (°C)
Quiescent Current v Temperature
Short-circuit Output Current (mA)
Output Voltage Temperature Coefficient
500
2.5
400
2.0
300
1.5
200
1.0
100
0 25 50 75 100 125
Temperature (°C)
0.5
Vo= 0
Vin= 10v
0
Vo= 0
Vin= 10v
0
-50 -25
0
-50 -25
25 50 75 100 125
Temperature (°C)
0 25 50 75 100125
Temperature (°C)
Peak Output Current v Temperature
Drop-Out Votlage v Temperature
4-38
ISSUE 3 - SEPTEMBER 2001
14
ZSR
SERIES
CONNECTION DIAGRAMS
SO8
SOT223 Package Suffix – G
Package Suffix – N8
Top View –
Connect pin 4 to pin 2 or leave pin 4
electrically isolated
Top View
TO92
Package Suffix – C
OPTIONS
Bottom View
ORDERING INFORMATION
Part No
ZSR
sC
Package
TO92
Partmark
ZSR
s
ZSR
sG
SOT223
ZSR
s
ZSR
s N8
SO8
ZSR
s
s Voltage Option
eg 3V device in TO92 package
part number ZSR300C
part marked ZSR300 *
Voltage Voltage
TO92
Option s
SOT223 SO8
2.85V
285
3
3
3
3.0V
300
3
3
3
3.3V
330
3
3
3
4.0V
400
3
3
3
4.85V
485
3
3
3
5.0V
500
3
3
3
5.2V
520
3
3
3
5.7V
570
3
3
3
6.0V
600
3
3
3
7.0V
700
3
3
3
8.0V
800
3
3
3
8.5V
850
3
3
3
9.0V
900
3
3
3
10.0V
1000
3
3
3
12.0V
1200
3
3
3
* NOTE: Exception. ZSR1000 part mark
is ZSR100 for all package options
eg 12V device in SOT223 package
part number ZSR1200G
part marked ZSR1200 *
eg 5V device in SO8 package
part number ZSR500N8
part marked ZSR500 *
ISSUE 3 - SEPTEMBER 2001
15
ZSR
SERIES
SCHEMATIC DIAGRAM
Vin
Q14
Q25
Q9
Q18
Q19
Q13
Q10
Q8
Q4
Q12
Q16
R14
Q17
Vout
R6
Q20
Q6
Q5
Q21
Q7
R3
Q11
R7
R4
R5
R9
C1
Q1
R1
Q3
R13
R2
Gnd
APPLICATIONS
FixedOutputRegulator
Input
AdjustableOutputRegulator
Input
Output
Output
ZR78L***
ZR78L***
Iq
R1
Gnd
Vo=Vreg+(V reg/R1+Iq)R2
R2
Gnd
CurrentRegulator
Input
ZR78L***
R1
Iq
Output
IO=(Vreg/R1) + 1q
ISSUE 3 - SEPTEMBER 2001
16
ZSR
SERIES
ZSR485 ZSR520 ZSR700
ZSR850 ZSR1200
TYPICAL CHARACTERISTICS
90
Io= 100mA
Vin= Vout+4v
1
0.1
ZSR1200
ZSR850
ZSR700
ZSR520
ZSR485
0.01
10
1k
100
10k
Io= 100mA
Vin= Vout+4v
Vin= 200mV Pk/Pk
80
Open Loop Gain (dB)
Output Impedance (Ohms)
10
ZSR520
ZSR485
70
60
50
40
ZSR700
ZSR850
30
ZSR1200
20
10
0
100
100k
Input
Voltage
Output Voltage Deviation (V)
Output Voltage Deviation (V)
Vo+4
+0.2
Output Voltage
Deviation
0
Io= 100mA
Cout= 0
dVin/dt= 5v/us
20
30
40
50
Time (µs)
0
+0.2
-0.2
140
D=1
0
TO92 PACKAGE
100
D=0.5
80
60
20
D=0.2
D=0.1
D=0.05
D=0
0
1m
10
10m 100m 1
20
30
40
50
Time (us)
D=1
48
120
40
Vin= Vout+4v
Cout= 0
dIo/dt= 1A/us
Load Transient Response
Thermal Resistance (°C/W)
160
Output Voltage
Deviation
0
Line Transient Response
Thermal Resistance (°C/W)
Load Current
100mA
10
1M
Ripple Rejection v Ripple Frequency
Vo+9
0
100k
Frequency (Hz)
Output Impedance v Frequency
-0.2
10k
1k
Frequency (Hz)
10
Pulse Width (s)
SOT223 PACKAGE
40
32
D=0.5
24
16
D=0.2
D=0.1
8
D=0.05
D=0
0
1m
10m 100m 1
10
Pulse Width (s)
Thermal Resistance v Pulse Width
Thermal Resistance v Pulse Width
4-
ISSUE 3 - SEPTEMBER 2001
17
ZSR
SERIES
160
Maximum Power Dissipation (W)
Thermal Resistance (˚C/ W)
TYPICAL CHARACTERISTICS
D=1
140
SO8 PACKAGE
120
100
D=0.5
80
60
40
D=0.2
20
D=0.1
D=0
0
100µ 1m
D=0.05
10m 100m 1
10
100
Pulse Width (s)
2.0
SOT223
1.8
1.6
1.4
1.2
1.0
0.8
0.6
SO8
TO92
0.4
0.2
Thermal Resistance v Pulse Width
0
-50 -25
0 25 50 75 100125
Ambient Temperature (˚C)
Power dissipation Derating
© Zetex plc 2001
Zetex plc
Fields New Road
Chadderton
Oldham, OL9 8NP
United Kingdom
Telephone (44) 161 622 4422
Fax: (44) 161 622 4420
Zetex GmbH
Streitfeldstraße 19
D-81673 München
Germany
Telefon: (49) 89 45 49 49 0
Fax: (49) 89 45 49 49 49
Zetex Inc
Suite 315
700 Veterans Memorial Highway
Hauppauge NY11788
USA
Telephone: (631) 360 2222
Fax: (631) 360 8222
Zetex (Asia) Ltd
3701-04 Metroplaza, Tower 1
Hing Fong Road
Kwai Fong, Hong Kong
China
Telephone: (852) 26100 611
Fax: (852) 24250 494
These offices are supported by agents and distributors in major countries world-wide.
This publication is issued to provide outline information only which (unless agreed by the Company in writing) may not be used, applied or
reproduced for any purpose or form part of any order or contract or be regarded as a representation relating to the products or services
concerned. The Company reserves the right to alter without notice the specification, design, price or conditions of supply of any product or
service.
For the latest product information, log on to www.zetex.com
ISSUE 3 - SEPTEMBER 2001
18