Issue 9 - October 2007 1 www.zetex.com
© Zetex Semiconductors plc 2007
ZSR SERIES
3.0 to 12 volt fixed positive local voltage regulator
SOT223 ordering information
Description
The ZSR Series three terminal fixed positive
voltage regulators feature internal circuit
current limit and thermal shutdown making the
devices difficult to destroy. The devices are
available in a high power surface mount
package, ideal for applications where space
saving is important. The devices are suited to
local voltage regulation applications, where
problems could be encountered with distributed
single source regulation, as well as more
general voltage regulation applications.
The ZSR Series show performance
characteristics superior to other local voltage
regulators. The initial output voltage is
maintained to within 2.5% with a quiescent
current of typically 350
A. Output voltage
change, with input voltage and load current, is
much lower than competitive devices. The ZSR
devices are completely stable with no external
components.
Features
• Output current up to 200mA
• Tight initial tolerance of 2.5%
•Low 600A quiescent current
• -55 to 125°C temperature range
• No external components
• Internal thermal shutdown
• Internal short circuit current limit
• High power SOT223 package
SOT223 Package suffix - G
Top view –
Connect pin 4 to pin 2 or leave pin 4
electrically isolated
Order reference Voltage Part
marking
Status Reel size
(inches)
Tape width
(mm)
Quantity
per reel
ZSR300GTA 3.0V ZSR300 Active 7 12 1000
ZSR330GTA 3.3V ZSR330 Active 7 12 1000
ZSR500GTA 5.0V ZSR500 Active 7 12 1000
ZSR800GTA 8.0V ZSR800 Active 7 12 1000
ZSR1000GTA 10.0V ZSR100 Active 7 12 1000
ZSR1200GTA 12.0V ZSR1200 Active 7 12 1000
OUT 1
4
2
3
GND
Top view
IN
GND
ZSR SERIES
Issue 9 - October 2007 2 www.zetex.com
© Zetex Semiconductors plc 2007
Recommended operating conditions
Absolute maximum rating
Input voltage 20V
Output current (IO) 200mA
Operating temperature -55 to 125°C
Storage temperature -65 to 150°C
Power Dissipation (Tamb=25°C)
SOT223 2W
Maximum power dissipation for the SOT223 is calculated
assuming that the device is mounted on a PCB measuring
2 inches square.
Parameter Products Min Max Units
Vin Input Voltage
ZSR300 5 20 V
ZSR330 5.3 20 V
ZSR500 7 20 V
ZSR800 10 20 V
ZSR1000 12 20 V
ZSR1200 14 20 V
Notes:
• 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.
• 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.
• 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 (1F 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.
ZSR SERIES
Issue 9 - October 2007 3 www.zetex.com
© Zetex Semiconductors plc 2007
Electrical characteristics
ZSR300 test conditions (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=7V
ZSR330 test conditions (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=7.3V
NOTES:
()Tj=-55 to 125°C
Symbol Parameter Conditions Min. Typ. Max. Units
VOOutput Voltage 2.92 3.0 3.08 V
IO=1 to 200mA()2.88 3.12 V
Vin=5 to 20V
IO =1 to 100mA()
2.88 3.12 V
⌬VOLine regulation Vin=5 to 20V 10 40 mV
⌬VOLoad regulation IO=1 to 200mA 5 25 mV
IO=1 to 100mA 2 mV
IgQuiescent current ()350 600 A
⌬IgQuiescent current change IO=1 to 200mA 100 A
Vin=1 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 75 V rms
⌬Vin/⌬VORipple rejection Vin=1 to 20V 48 62 dB
f=120Hz
Vin Input voltage required to
maintain regulation
4.7 V
⌬VO/⌬T Average temperature
coefficient of VO
IO=5.0mA()0.1 mV/°C
Symbol Parameter Conditions Min. Typ. Max. Units
VOOutput Voltage 3.218 3.3 3.382 V
IO=1 to 200mA()3.168 3.432 V
Vin=5.3 to 20V
IO =1 to 100mA()
3.168 3.432 V
⌬VOLine regulation Vin=5.3 to 20V 7.5 30 mV
⌬VOLoad regulation IO=1 to 200mA 5 25 mV
IO=1 to 100mA 2 mV
IgQuiescent current ()350 600 A
⌬IgQuiescent current change IO=1 to 200mA 100 A
Vin=5.3 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 50 V rms
⌬Vin/⌬VORipple rejection Vin=6.3 to 18V 50 64 dB
f=120Hz
Vin Input voltage required to
maintain regulation
5V
⌬VO/⌬T Average temperature
coefficient of VO
IO=5.0mA()0.1 mV/°C
ZSR SERIES
Issue 9 - October 2007 4 www.zetex.com
© Zetex Semiconductors plc 2007
ZSR500 test conditions (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=9V
ZSR800 test conditions (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=12V
NOTES:
()Tj=-55 to 125°C
Symbol Parameter Conditions Min. Typ. Max. Units
VOOutput Voltage 4.875 5 5.126 V
IO=1 to 200mA()4.8 5.2 V
Vin=7 to 20V
IO =1 to 100mA()
4.8 5.2 V
⌬VOLine regulation Vin=7 to 20V 10 40 mV
⌬VOLoad regulation IO=1 to 200mA 5 25 mV
IO=1 to 100mA 2 mV
IgQuiescent current ()350 600 A
⌬IgQuiescent current change IO=1 to 200mA 100 A
Vin=7 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 75 V rms
⌬Vin/⌬VORipple rejection Vin=8 to 18V 48 62 dB
f=120Hz
Vin Input voltage required to
maintain regulation
76.7 V
⌬VO/⌬T Average temperature
coefficient of VO
IO=5.0mA()0.1 mV/°C
Symbol Parameter Conditions Min. Typ. Max. Units
VOOutput Voltage 7.8 8 8.25 V
IO=1 to 200mA()7.68 8.32 V
Vin=10 to 20V
IO =1 to 100mA()
7.68 8.32 V
⌬VOLine regulation Vin=10 to 20V 11 40 mV
⌬VOLoad regulation IO=1 to 200mA 8 30 mV
IO=1 to 100mA 3 mV
IgQuiescent current ()350 600 A
⌬IgQuiescent current change IO=1 to 200mA 100 A
Vin=10 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 115 V rms
⌬Vin/⌬VORipple rejection Vin=11 to 18V 44 60 dB
f=120Hz
Vin Input voltage required to
maintain regulation
9.7 V
⌬VO/⌬T Average temperature
coefficient of VO
IO=5.0mA()0.25 mV/°C
ZSR SERIES
Issue 9 - October 2007 5 www.zetex.com
© Zetex Semiconductors plc 2007
ZSR1000 test conditions (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=14V
ZSR1200 test conditions (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=16V
NOTES:
()Tj=-55 to 125°C
Symbol Parameter Conditions Min. Typ. Max. Units
VOOutput Voltage 9.75 10 10.25 V
IO=1 to 200mA()9.6 10.4 V
Vin=12 to 20V
IO =1 to 100mA()
9.6 10.4 V
⌬VOLine regulation Vin=12 to 20V 12 40 mV
⌬VOLoad regulation IO=1 to 200mA 9 30 mV
IO=1 to 100mA 3 mV
IgQuiescent current ()350 600 A
⌬IgQuiescent current change IO=1 to 200mA 100 A
Vin=12 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 150 V rms
⌬Vin/⌬VORipple rejection Vin=13 to 18V 43 57 dB
f=120Hz
Vin Input voltage required to
maintain regulation
11.7 V
⌬VO/⌬T Average temperature
coefficient of VO
IO=5.0mA()0.25 mV/°C
Symbol Parameter Conditions Min. Typ. Max. Units
VOOutput Voltage 11.7 12 12.3 V
IO=1 to 200mA()11.52 12.48 V
Vin=14 to 20V
IO =1 to 100mA()
11.52 12.48 V
⌬VOLine regulation Vin=14 to 20V 12 40 mV
⌬VOLoad regulation IO=1 to 200mA 9 30 mV
IO=1 to 100mA 3 mV
IgQuiescent current ()350 600 A
⌬IgQuiescent current change IO=1 to 200mA 100 A
Vin=14 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 150 V rms
⌬Vin/⌬VORipple rejection Vin=15 to 18V 43 57 dB
f=120Hz
Vin Input voltage required to
maintain regulation
13.7 V
⌬VO/⌬T Average temperature
coefficient of VO
IO=5.0mA()0.25 mV/°C
ZSR SERIES
Issue 9 - October 2007 8 www.zetex.com
© Zetex Semiconductors plc 2007
Typical characteristics
-50 -25 025 50 75 100 125
Tempe r a t u re (°C)
Short-Circuit Output Current (mA)
Peak Output Current v Temperature
500
400
300
200
100
0
-50 -25 025 50 75 100 125
Tempe r a t ure (°C)
Io=100mA
Io=200mA
2.5
2.0
1.5
1.0
0.5
0
Drop-Out Voltage (V)
Drop-Out Voltage v Temperature
-50 -25 025 50 75 100 125
Temperature (°C)
450
400
350
300
250
Quiescent Current (mA)
Quiescent Current v Temperature
I
o
=0
V
in
=V
o
+4V
-50 -25 025 50 75 100 125
Temp e r a ture ( °C)
Output Voltage Temperature Coefficient
9.08
9.04
9.00
8.96
8.92
V
in
=V
o
+4V
I
o
=5mA
-50 -25 025 50 75 100 125
2.85
2.82
Temp e r a ture ( °C)
Output Voltage Temperature Coefficient
2.84
2.86
5.70
5.66
-50 -25 025 50 75 100 125
Temperature (°C)
Output Voltage (V)
Output Voltage Temperature Coefficient
4.00
3.96
ZSR400
3.98
3.94
5.68
5.72
ZSR900
2.99
3.00
3.01
2.98
ZSR285
ZSR300
I
o
=5mA
V
in
=V
o
+4V
I
o
=5mA
V
in
=V
o
+4V
V
o=
0
V
in
=10V
Output Voltage (V)
Output Voltage (V)
ZSR SERIES
Issue 9 - October 2007 14 www.zetex.com
© Zetex Semiconductors plc 2007
Obsolete Variants
SOT223 Order information
TO92 Order information
NOTES:
* TO92 was supplied in the following reel options:
loose in boxes of 4000 suffix: L
taped and wound on a reel of 1500 suffix: STOB
taped and folded in concertina form of 1500 suffix: STZ
TO92 Package suffix - C
Orderable Voltage Part
marking
Status Reel size
(inches)
Tape width
(mm)
Quantity
per reel
ZSR285GTA 2.85V ZSR285 Obsolete 7 12 1000
ZSR400GTA 4.0V ZSR400 Obsolete 7 12 1000
ZSR485GTA 4.85V ZSR485 Obsolete 7 12 1000
ZSR520GTA 5.2V ZSR520 Obsolete 7 12 1000
ZSR600GTA 6.0V ZSR600 Obsolete 7 12 1000
ZSR900GTA 9.0V ZSR900 Obsolete 7 12 1000
Part Number Voltage Part marking Status Orderable
ZSR285 2.85V ZSR285 Obsolete ZSR285C*
ZSR300 3.0V ZSR300 Obsolete ZSR300C*
ZSR330 3.3V ZSR330 Obsolete ZSR330C*
ZSR400 4.0V ZSR400 Obsolete ZSR400C*
ZSR485 4.85V ZSR485 Obsolete ZSR485C*
ZSR500 5.0V ZSR500 Obsolete ZSR500C*
ZSR520 5.2V ZSR520 Obsolete ZSR520C*
ZSR600 6.0V ZSR600 Obsolete ZSR600C*
ZSR800 8.0V ZSR800 Obsolete ZSR800C*
ZSR900 9.0V ZSR900 Obsolete ZSR900C*
ZSR1000 10.0V ZSR100 Obsolete ZSR1000C*
ZSR1200 12.0V ZSR1200 Obsolete ZSR1200C*
IN
Underside view
GND
OUT
ZSR SERIES
Issue 9 - October 2007 15 www.zetex.com
© Zetex Semiconductors plc 2007
OBSOLETE
OBSOLETE
ZSR285 test conditions =6.85V
ZSR400 test conditions (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=8V
NOTES:
()Tj=-55 to 125°C
Symbol Parameter Conditions Min. Typ. Max. Units
VOOutput Voltage 2.78 2.85 2.92 V
IO=1 to 200mA() 2.735 2.964 V
Vin=4.85 to 20V
IO =1 to 100mA()
2.736 2.964 V
VOLine regulation Vin=4.85 to 20V 10 40 mV
VOLoad regulation IO=1 to 200mA 5 25 mV
IO=1 to 100mA 2 mV
IgQuiescent current () 350 600 A
IgQuiescent current change IO=1 to 200mA 100 A
Vin=4.85 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 75 V rms
Vin/V
ORipple rejection Vin=5.85 to 218V 48 62 dB
f=120Hz
Vin Input voltage required to
maintain regulation
4.85 4.55 V
VO/ T Average temperature
coefficient of VO
IO=5.0mA() 0.1 mV/°C
Symbol Parameter Conditions Min. Typ. Max. Units
VOOutput Voltage 3.9 4.0 4.1 V
IO=1 to 200mA() 3.84 4.16 V
Vin=6 to 20V
IO =1 to 100mA()
3.84 4.16 V
VOLine regulation Vin=6 to 20V 10 40 mV
VOLoad regulation IO=1 to 200mA 5 25 mV
IO=1 to 100mA 2 mV
IgQuiescent current () 350 600 A
IgQuiescent current change IO=1 to 200mA 100 A
Vin=6 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 75 V rms
Vin/V
ORipple rejection Vin=7 to 218V 48 62 dB
f=120Hz
Vin Input voltage required to
maintain regulation
65.3 V
ZSR SERIES
Issue 9 - October 2007 16 www.zetex.com
© Zetex Semiconductors plc 2007
OBSOLETE
OBSOLETE
ZSR485 test conditions (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=8.85V
ZSR520 test conditions
(Unless otherwise stated):T
j
=25°C, I
O
=100mA, V
in
=100mV
()Tj=-55 to 125°C
VOOutput Voltage 4.792 4.85 4.971 V
IO=1 to 200mA() 4.656 5.044 V
Vin=6.8 to 20V
IO =1 to 100mA()
4.656 5.044 V
VOLine regulation Vin=6.85 to 20V 10 40 mV
VOLoad regulation IO=1 to 200mA 5 25 mV
IO=1 to 100mA 2 mV
IgQuiescent current () 350 600 A
IgQuiescent current change IO=1 to 200mA 100 A
Vin=6.85 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 50 V rms
Vin/V
ORipple rejection Vin=7.85 to 18V 50 64 dB
f=120Hz
Vin Input voltage required to
maintain regulation
6.85 6.55 V
VO/ T Average temperature
coefficient of VO
IO=5.0mA() 0.1 mV/°C
VOOutput Voltage 5.070 5.2 5.330 V
IO=1 to 200mA() 4.99 5.41 V
Vin=7.2 to 20V
IO =1 to 100mA()
4.99 5.41 V
VOLine regulation Vin=7.2 to 20V 10 40 mV
VOLoad regulation IO=1 to 200mA 5 25 mV
IO=1 to 100mA 2 mV
IgQuiescent current () 350 600 A
IgQuiescent current change IO=1 to 200mA 100 A
Vin=7.2 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 75 V rms
Vin/V
ORipple rejection Vin=8.2 to 18V 48 62 dB
f=120Hz
Vin Input voltage required to
maintain regulation
7.2 6.9 V
VO/ T Average temperature
coefficient of VO
IO=5.0mA() 0.1 mV/°C
ZSR SERIES
Issue 9 - October 2007 17 www.zetex.com
© Zetex Semiconductors plc 2007
OBSOLETE
OBSOLETE
ZSR600 test conditions (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=10V
ZSR900 test conditions (Unless otherwise stated):Tj=25°C, IO=100mA, Vin=13V
NOTES:
()Tj=-55 to 125°C
Symbol Parameter Conditions Min. Typ. Max. Units
VOOutput Voltage 5.85 6 6.15 V
IO=1 to 200mA()5.76 6.24 V
Vin=8 to 20V
IO =1 to 100mA()
5.76 6.24 V
⌬VOLine regulation Vin=8 to 20V 10 40 mV
⌬VOLoad regulation IO=1 to 200mA 7 30 mV
IO=1 to 100mA 2.5 mV
IgQuiescent current ()350 600 A
⌬IgQuiescent current change IO=1 to 200mA 100 A
Vin=8 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 90 V rms
⌬Vin/⌬VORipple rejection Vin=9 to 18V 48 62 dB
f=120Hz
Vin Input voltage required to
maintain regulation
87.7 V
⌬VO/⌬T Average temperature
coefficient of VO
IO=5.0mA()0.15 mV/°C
Symbol Parameter Conditions Min. Typ. Max. Units
VOOutput Voltage 8.775 9.0 9.225 V
IO=1 to 200mA()8.64 9.36 V
Vin=11 to 20V
IO =1 to 100mA()
8.64 9.36 V
⌬VOLine regulation Vin=11 to 20V 12 40 mV
⌬VOLoad regulation IO=1 to 200mA 9 30 mV
IO=1 to 100mA 3 mV
IgQuiescent current ()350 600 A
⌬IgQuiescent current change IO=1 to 200mA 100 A
Vin=11 to 20V 100 A
VnOutput noise voltage f=10Hz to 10Hz 150 V rms
⌬Vin/⌬VORipple rejection Vin=12 to 18V 43 57 dB
f=120Hz
Vin Input voltage required to
maintain regulation
11 10.7 V
⌬VO/⌬T Average temperature
coefficient of VO
IO=5.0mA()0.25 mV/°C
ZSR SERIES
Issue 9 - October 2007 18 www.zetex.com
© Zetex Semiconductors plc 2007
Zetex sales offices
Europe
Zetex GmbH
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Balanstraße 59
D-81541 München
Germany
Telefon: (49) 89 45 49 49 0
Fax: (49) 89 45 49 49 49
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Hauppauge, NY 11788
USA
Telephone: (1) 631 360 2222
Fax: (1) 631 360 8222
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hq@zetex.com
© 2007 Published by Zetex Semiconductors plc
Definitions
Product change
Zetex Semiconductors reserves the right to alter, without notice, specifications, design, price or conditions of supply of any product or
service. Customers are solely responsible for obtaining the latest relevant information before placing orders.
Applications disclaimer
The circuits in this design/application note are offered as design ideas. It is the responsibility of the user to ensure that the circuit is fit for
the user’s application and meets with the user’s requirements. No representation or warranty is given and no liability whatsoever is
assumed by Zetex with respect to the accuracy or use of such information, or infringement of patents or other intellectual property rights
arising from such use or otherwise. Zetex does not assume any legal responsibility or will not be held legally liable (whether in contract,
tort (including negligence), breach of statutory duty, restriction or otherwise) for any damages, loss of profit, business, contract,
opportunity or consequential loss in the use of these circuit applications, under any circumstances.
Life support
Zetex products are specifically not authorized for use as critical components in life support devices or systems without the express written
approval of the Chief Executive Officer of Zetex Semiconductors plc. As used herein:
A. Life support devices or systems are devices or systems which:
1. are intended to implant into the body
or
2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the
labelling can be reasonably expected to result in significant injury to the user.
B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to
cause the failure of the life support device or to affect its safety or effectiveness.
Reproduction
The product specifications contained in this publication are 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.
Terms and Conditions
All products are sold subjects to Zetex’ terms and conditions of sale, and this disclaimer (save in the event of a conflict between the two
when the terms of the contract shall prevail) according to region, supplied at the time of order acknowledgement.
For the latest information on technology, delivery terms and conditions and prices, please contact your nearest Zetex sales office.
Quality of product
Zetex is an ISO 9001 and TS16949 certified semiconductor manufacturer.
To ensure quality of service and products we strongly advise the purchase of parts directly from Zetex Semiconductors or one of our
regionally authorized distributors. For a complete listing of authorized distributors please visit: www.zetex.com/salesnetwork
Zetex Semiconductors does not warrant or accept any liability whatsoever in respect of any parts purchased through unauthorized sales channels.
ESD (Electrostatic discharge)
Semiconductor devices are susceptible to damage by ESD. Suitable precautions should be taken when handling and transporting devices.
The possible damage to devices depends on the circumstances of the handling and transporting, and the nature of the device. The extent
of damage can vary from immediate functional or parametric malfunction to degradation of function or performance in use over time.
Devices suspected of being affected should be replaced.
Green compliance
Zetex Semiconductors is committed to environmental excellence in all aspects of its operations which includes meeting or exceeding
regulatory requirements with respect to the use of hazardous substances. Numerous successful programs have been implemented to
reduce the use of hazardous substances and/or emissions.
All Zetex components are compliant with the RoHS directive, and through this it is supporting its customers in their compliance with
WEEE and ELV directives.
Product status key:
“Preview” Future device intended for production at some point. Samples may be available
“Active” Product status recommended for new designs
“Last time buy (LTB)” Device will be discontinued and last time buy period and delivery is in effect
“Not recommended for new designs”
Device is still in production to support existing designs and production
“Obsolete” Production has been discontinued
Datasheet status key:
“Draft version” This term denotes a very early datasheet version and contains highly provisional information, which
may change in any manner without notice.
“Provisional version” This term denotes a pre-release datasheet. It provides a clear indication of anticipated performance.
However, changes to the test conditions and specifications may occur, at any time and without notice.
“Issue” This term denotes an issued datasheet containing finalized specifications. However, changes to
specifications may occur, at any time and without notice.
