DIODES ZXRE060AET5TA

A Product Line of
Diodes Incorporated
ZXRE060
0.6V ADJUSTABLE PRECISION SHUNT REGULATOR
Description
Pin Assignments
The ZXRE060 is a 5-terminal adjustable shunt regulator
offering excellent temperature stability and output
handling capability up to 20mA. The ZXRE060 simplifies
the design of isolated low voltage DC-DC regulators. With
its low 0.6V FB pin, it can control the regulation of rails as
low 0.6V. This makes it ideal for state of the art
microprocessor/DSP and PLD core voltage POL
converters.
ZXRE060_H5 (SC70-5/SOT353) and ZXRE060_ET5
(TSOT23-5)
The device open-collector output can operate from 0.2V to
18V and regulated output voltage can be set by selection
of two external divider resistors.
Separating the input from the open collector output
enables the ZXRE060 to be used to make low-cost low
drop-out regulators operating at low input voltages.
The ZXRE060 is available in two grades with initial
tolerances of 0.5% and 1% for the A and standard grades
respectively. It is available in space saving low profile
5 pin SC70/SOT353 and Thin SOT23 packages.
The ZXRE060 in TSOT23-5 has its OUT, GND and
FB pins matching the Cathode, Anode and reference pins
of the TL432 and TLV431 in SOT23-3, thereby facilitating
simple upgrade paths.
Typical Application Circuit
Features
•
•
•
•
•
•
•
•
Low reference voltage (VFB = 0.6V)
-40 to 125ºC temperature range
Reference voltage tolerance at 25°C
o 0.5%
ZXRE060A
o 1%
ZXRE060
Typical temperature drift
o <4 mV (0°C to 70°C)
o <6 mV (-40°C to 85°C)
o <12mV (-40°C to 125°C)
0.2V to 18V open-collector output
High power supply rejection
o (>45dB at 300kHz)
Lead Free by design/RoHS Compliant (Note 1)
“Green”/Halogen free device (Note 2)
Applications
•
•
•
•
•
Notes:
Isolated DC-DC converters
Core voltage POL
Low Voltage Low-Dropout linear regulators
Shunt regulators
Adjustable voltage reference
1. No purposefully added lead.
2. Diodes Inc.’s “Green” ploicy can be found on our website at http://www.diodes.com/products/lead_free/index.php.
ZXRE060
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ZXRE060
Pin Description
Pin
1
2
3
4
Name
PGND
GND
IN
FB
5
OUT
Function
Power Ground: Ground return for emitter of output transistor: Connect PGND and GND together.
Analog Ground: Ground return for reference and amplifier: Connect GND and PGND together.
Supply Input. Connect a 0.1μF ceramic capacitor close to the device from IN to GND.
Feedback Input. Regulates to 600mV nominal.
Output. Connect a capacitor close to device between OUT and GND. See the Applications
Information section.
Function Block Diagram
The ZXRE060 differs from most other shunt regulators in that it has separate input and output pins and a low voltage reference.
This enables it to regulate rails down to 600mV and makes the part ideal for isolated power supply applications that use optocouplers in the feedback loop and where the open-collector output is required to operate down to voltages as low as 200mV.
The wide input voltage range of 2V to 18V and output voltage range of 0.2V to 18V enables the ZXRE060 to be powered from
an auxiliary rail, while controlling a master rail which is above the auxiliary rail voltage, or below the minimum VIN voltage. This
allows it to operate as a low-dropout voltage regulator for microprocessor/DSP/PLD cores.
As with other shunt regulators (and shunt references), the ZXRE060 compares its internal amplifier FB pin to a high accuracy
internal reference; if FB is below the reference then OUT turns off, but if FB is above the reference then OUT sinks current – up
to a maximum of 15mA.
ZXRE060
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ZXRE060
Absolute Maximum Ratings (Voltages to GND Unless Otherwise Stated)
Symbol
VIN
VOUT
VFB
PGND
TJ
TST
Parameter
IN Voltage relative to GND
OUT Voltage relative to GND
FB Voltage relative to GND
PGND Voltage relative to GND
Operating Junction Temperture
Storage Temperature
Rating
20
20
20
-0.3 to +0.3
-40 to 150
55 to 150
Unit
V
V
V
V
°C
°C
These are stress ratings only. Operation outside the absolute maximum ratings may cause device failure.
Operation at the absolute maximum rating for extended periods may reduce device reliability.
Semiconductor devices are ESD sensitive and may be damaged by exposure to ESD events.
Suitable ESD precautions should be taken when handling and transporting these devices.
Package Thermal Data
Package
θJA
SC70-5/SOT353
TSOT23-5
400°C/W
250°C/W
PDIS
TA = 25°C, TJ = 150°C
310mW
500mW
Recommended Operating Conditions
Symbol
VIN
VIN
VOUT
IOUT
TA
Parameter
IN Voltage Range (0 to 125°C)
IN Voltage Range (-40 to 0°C)
OUT Voltage Range
OUT Pin Current
Operating Ambient Temperature
Range
ZXRE060
Document number: DS33611 Rev. 2 - 2
Min
2
2.2
0.2
0.3
Max
18
18
18
15
Units
-40
125
°C
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V
mA
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ZXRE060
Electrical Characteristics
TA = 25°C, VIN = 3.3V, VOUT = VFB, IOUT = 5mA unless otherwise stated (Note 3).
Symbol Parameter
Conditions
TA = 0°C to 85°C
VFB
Feedback voltage
ZXRE060A
ZXRE060
ZXRE060A
ZXRE060
Min
0.597
0.594
0.595
0.592
Typ
0.6
0.6
Max
0.603
0.606
0.605
0.608
Units
ZXRE060A
0.594
0.606
V
ZXRE060
0.591
0.609
ZXRE060A
0.593
0.607
ZXRE060
0.590
0.610
TA = -40°C to 85°C
TA = -40°C to 125°C
FBLOAD
Feedback pin load
regulation
FBLINE
Feedback pin line
regulation
FBOVR
Output voltage
regulation
FB input bias
current
IFB
3.8
IOUT = 1 to 15mA
TA = -40 to 125°C
VIN = 2V to 18V
VIN = 2.2V to 18V
VOUT = 0.2V to 18V,
IOUT =1mA
(Ref. Figure 1)
0.1
TA = -40 to 125°C
TA = -40 to 125°C
6
10
1
1.5
1
1.5
-45
VIN = 18V
TA = -40 to 125°C
-200
0
0.35
VIN = 2V to 18V
IIN
mV
nA
mA
TA = -40 to 125°C
1
Input current
VIN = 2V to 18V
0.48
1
IOUT =10mA
VIN = 2.2V to 18V
IOUT(LK)
OUT leakage
current
ZOUT
Dynamic Output
Impedance
VIN = 18V,
VOUT = 18V,
VFB =0V
IOUT = 1 to 15mA
f < 1kHz
mA
TA = -40 to 125°C
BW
G
1.5
0.1
TA = 125°C
1
0.25
TA = -40 to125°C
f=300kHz
Power supply
rejection ratio
VAC= 0.3VPP
Amplifier Unity Gain
Ref: Fig 2
Frequency
Amplifier
Transconductance
PSRR
Note:
mV
0.7
IOUT =0.3mA
VIN = 2.2V to 18V
mV
0.4
0.6
µA
Ω
>45
dB
600
kHz
5000
mA/V
3. Production testing of the device is performed at 25 °C. Functional operation of the device and parameters specified over the operating temperature
range are guaranteed by design, characterisation and process control.
ZXRE060
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ZXRE060
Typical Characteristics
ZXRE060
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ZXRE060
Typical Operating Conditions (Cont.)
200
200
225°
225°
V OUT = 0.6V
COU T = 0. 22F
V OUT = 0.6V
150
180°
100
135°
100
135°
50
90°
50
90°
0
45°
Phase
180°
Gain (dB)
150
Phase
Gain (dB)
COU T = 0. 22F
45°
0
G ain
Phase
G ain
Phase
0°
100
1K
10K
100K
1M
Frequency (Hz)
Frequency and Phase Characteristics for VO UT = 0.6V
-50
1
10
0°
100
1K
10K
100K
1M
Frequency (Hz)
Frequency and Phase Characteristics for VO UT = 0.6V
-50
1
10
Figure 2. Test circuits for gain and phase plots
ZXRE060
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ZXRE060
Application Information
The following show some typical application examples for the ZXRE060. It is recommended to include the compensation
capacitor C2 to guarantee stability. C2 may range in value from 0.1µF to 10µF depending on the application and the
environment.
Both C1 and C2 should be as close to the ZXRE060 as possible and connected to it with the shortest possible track. In the
case of and, it means the opto-coupler will have to be carefully positioned to enable this.
Figure 3. 0.6V Shunt Regulator
Figure 4. 1.0V Shunt Regulator
R1 ⎞
⎛
VOUT = VREF ⎜1 +
⎟
R2 ⎠
⎝
VOUT = VREF
R3 =
VIN − VOUT
IR3
Figure 6. 1.0V series LDO regulator
Figure 5. 0.6V series LDO regulator
R1 ⎞
⎛
VOUT = VREF ⎜1 +
⎟
R2 ⎠
⎝
VOUT = VREF
1.
2.
Design guides
Determine IOUT and choose a suitable transistor taking power dissipation into consideration.
Determine IB from I = IOUT(max)
3.
Determine IR3 from
4.
conventional references. There is only an output leakage current which is a maximum of 1µA. Nevertheless, it is
necessary to determine an IKA(min) to ensure that the device operates within its linear range at all times. IKA(min) ≥
10µA should be adequate for this.
Determine R3 from R3 = VIN − ( VOUT + VBE ) .
5.
Although unlikely to be a problem, ensure that IR3 ≤ 15 mA.
B
(hFE(min) + 1)
IR3 ≥ IB + IKA (min) .
The design of the ZXRE060 effectively means there is no IKA(min) limitation as in
IR3
ZXRE060
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ZXRE060
Application Information (Continued)
R1 ⎞
⎛
VOUT = VREF ⎜1 +
⎟
R2 ⎠
⎝
( VOUT ≥ 0.2V + VBE )
R3 =
VIN − VOUT
IR3
Figure 7. 1V Current-boosted shunt regulator
Design guides
1.
2.
Determine IOUT and choose a suitable transistor taking power dissipation into consideration.
Determine IB from I = IOUT(max)
3.
Determine IR3 from
IR3 = IOUT(max)
4.
Determine R3 from
R3 =
5.
It is best to let the ZXRE060 supply as much current as it can before bringing Q1 into conduction. Not
only does this minimise the strain on Q1, it also guarantees the most stable operation. Choose a nominal
value between 10mA and <15mA for this current, IR4.
Calculate R4 from R4 = VBE
6.
B
(hFE(min) + 1)
VIN − VOUT
IR3
IR4
VOUT goes low and LED is lit when monitored supply
R1 ⎞
⎛
VM > VREF ⎜ 1 +
⎟
⎝ R2 ⎠
V − ( VF + 0.2)
R3 = IN
IR3
15mA ≥ IR3 ≤ IF(MAX)
VF and IF are forward voltage drop and current of LED1.
Figure 8. 1.15V over-voltage indicator
ZXRE060
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ZXRE060
Application Information (Continued)
Figure 9. Opto-isolated 0.6V shunt regulator
Figure 10. Opto-isolated 1.0V shunt regulator
R1 ⎞
⎛
VOUT = VREF ⎜ 1 +
⎟
R2 ⎠
⎝
VOUT = VREF
V − ( VF + 0.2)
R3 = IN
IR3
15mA ≥ IR3 ≤ IF(MAX)
VF and IF are forward voltage drop and forward current respectively for the optocoupler LED.
More applications information is available in the following publications which can be found on Diodes’ web site.
AN57 - Designing with Diodes’ References – Shunt Regulation
AN58 - Designing with Diodes’ References – Series Regulation
AN59 - Designing with Diodes’ References – Fixed Regulators and Opto-Isolation
AN60 - Designing with Diodes’ References – Extending the operating voltage range
AN61 - Designing with Diodes’ References – Other Applications
AN62 - Designing with Diodes’ References – ZXRE060 Low Voltage Regulator
ZXRE060
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ZXRE060
Ordering Information
Tol.
0.5%
1%
Order Code
Part
Part Mark
ZXRE060AET5TA
ZXRE060AH5TA
ZXRE060ET5TA
ZXRE060H5TA
TSOT23-5
SC70-5/SOT353
TSOT23-5
SC70-5/SOT353
S6A
S6A
S06
S06
Reel Size
7”,
7”,
7”,
7”,
180mm
180mm
180mm
180mm
Tape Width
Quantity/Reel
8mm
8mm
8mm
8mm
3000
3000
3000
3000
Notes: 4. For packaging details, go to our website at http://www.diodes.com/datasheets/ap02007.pdf
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