New prod uc t pin description, Function block diagram – Diodes ZXRD060 User Manual
Page 2
ZXRD060
0.6V DUAL ADJUSTABLE PRECISION SHUNT REGULATOR
ZXRD060
Document number: DS35359 Rev. 4 - 2
2 of 12
August 2011
© Diodes Incorporated
A Product Line of
Diodes Incorporated
NEW PROD
UC
T
Pin Description
Pin
(DFN)
Name
Function
1
PGND1
Power Ground 1: Ground return for emitter of output transistor: Connect PGND1/2 and GND together.
2 OUT1
Output 1. Connect a capacitor close to device between OUT1 and GND. See Applications Information
section.
3
GND
Analog Ground: Ground return for reference and amplifiers: Connect GND and PGND1/2 together.
4
PGND2
Power Ground 2: Ground return for emitter of output transistor: Connect PGND1/2 and GND together.
5 OUT2
Output 2. Connect a capacitor close to device between OUT2 and GND. See Applications Information
section.
6
FB2
Feedback Input 2. Regulates to 600mV nominal.
7
IN2
Supply Input 2. Connect a 0.1
μF ceramic capacitor close to the device from IN2 to GND.
8
FB1
Feedback Input 1. Regulates to 600mV nominal.
9
No
connection
10
IN1
Supply Input 1. Connect a 0.1
μF ceramic capacitor close to the device from IN1 to GND.
Flag
Floating or connect to GND
Function Block Diagram
The ZXRD060 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 opto-couplers 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 ZXRD060 to be powered from
an auxiliary rail, while controlling a master rail which is above the auxiliary rail voltage, or below the minimum V
IN
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 ZXRD060 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.