PAD113 Thaler Corporation, PAD113 Datasheet - Page 4

PAD113

Manufacturer Part Number

PAD113

Description

High Voltage Operational Amplifier

Manufacturer

Thaler Corporation

Datasheet

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HIGH VOLTAGE OPERATIONAL AMPLIFIER

When developing an application circuit it is wise to begin with

power supply voltages as low as possible while checking for

circuit functionality. Increase supply voltages slowly as

confidence in the application circuit increases. Always use a

“hands off” method whereby test equipment probes are

attached only when power is off. See application note AN-16

for PCB layout guidelines.

may stress or destroy external components that are often not

seriously considered when developing circuits with small

signal op amps. High voltage rated resistors may be purchased

for the feedback circuit or, alternately, several ordinary

resistors may be placed in series to obtain the proper voltage

rating. The compensation capacitor C

rated for 500V. See AN-16 for PCB layout guidelines.

amplifier. Make sure that air flow to the fan and away from the

heat sink remains unobstructed. The cooling method used is

impingement cooling, which means that cool air is pushed into

the heat sink and warm air is exhausted through the spaces

between the heat sink fins.

circuit that can be used to implement a four-wire current limit

configuration or, in combination with some external

components can be configured to implement a fold-over current

limit circuit. The four-wire current limit configuration insures

that parasitic resistance in the output line, Rp, does not affect

the programmed current limit setting. See Figure 1. The sense

voltage for current limit is 0.63V. Thus approximately:

Where I

value of the current limit sense resistor from 0.4Ω-40Ω. See

graph for Current Limit Value vs R

approximately equal to

reduces the available current as the voltage across the output

transistors increases to help insure that the SOA of the output

transistors is not exceeded. Refer to Application Circuits for

details on how to connect the current limit circuitry to

implement either a four-wire current limit or current limit with

a fold-over function.

the four corners of the amplifier. Once the amplifier is seated,

secure the module with the provided

4.7 in oz [3.8 N cm] max. See “Dimensional Information” for

a detailed drawing. It is recommended that the heat sink be

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The operating voltages of the PAD113 are potentially deadly.

The output of the PAD113 can swing up to +/- 240V and this

The PAD113 relies on its fan for proper cooling of the

The current limiting function of the PAD113 is a versatile

In addition, the sense voltage has a temperature coefficient

The amplifier is supplied with four 4-40 M/F hex spacers at

EXTERNAL CIRCUIT COMPONENTS

MOUNTING THE AMPLIFIER

is the value of the limited current and R

CURRENT LIMIT

SAFETY FIRST

COOLING FAN

–

2.2mV/

. 0

C. The fold-over function

4-40 nuts and torque to

is a NPO type and is

is the

grounded to the system ground. This can easily be done by

providing a grounded circuit board pad around any of the holes

for the mounting studs.

to ground and proportional to the temperature in degrees C.

The slope is approximately -10.82mV/

voltage follows the equation:

Where V is the TMP output voltage and T is the

substrate temperature in degrees C.

capacitive loading and pickup from the output of the

amplifier. When monitoring TMP filter the voltage as

shown in Figure 3. See Applications Circuits.

the amplifier when the substrate temperature reaches 110

When the substrate cools down 10

enabled once again. The thermal shutdown feature is

activated either by amplifier overloads or a failure of the fan

circuit.

turned “off” and remains “off” as long as pin 7 is low.

When pin 7 is monitored with a high impedance circuit it

also functions as a flag, reporting when the amplifier is shut

down. A “high” (+5V) on pin 7 indicates the temperature is

in the normal range. A “low” (ground) indicates a shutdown

condition. See Application Circuits for details on how to

implement an external shutdown circuit and how to monitor

the shutdown status when temperature is in the normal

range. A “low” (ground) indicates a shutdown condition.

See Application Circuits for details on how to implement

an external shutdown circuit and how to monitor the

shutdown status.

compensation capacitor, C

and 5. The compensation capacitor must be an NPO type

capacitor rated for the full supply voltage (500V). On page

2, under Amplifier Pinout and Connections, you will find a

table that gives recommended compensation capacitance

value for various circuit gains and the resulting slew rate for

each capacitor value. Consult also the small signal response

and phase response plots for the selected compensation

value in the Typical Performance Graphs section. A

compensation capacitor less than 10pF is not recommended.

An analog output voltage is provided (pin 6, TMP) relative

This high impedance output circuit is susceptible to

The temperature monitoring circuit automatically turns off

When pin 7 ( SD ) is taken low (ground) the amplifier is

The PAD113 must be phase compensated. The

TEMPERATURE REPORTING

PHASE COMPENSATION

EXTERNAL SHUTDOWN

THERMAL SHUTDOWN

T = (2.127 ─ V) (92.42)

OPERATING CONSIDERATIONS

, is connected between pins 4

C the amplifier is

C. The output

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PAD113 Thaler Corporation, PAD113 Datasheet - Page 4

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