VIPER53DIP-E STMicroelectronics, VIPER53DIP-E Datasheet - Page 24

VIPER53DIP-E

Manufacturer Part Number

VIPER53DIP-E

Description

IC OFFLINE SWIT PWM CM OTP 8DIP

Manufacturer

STMicroelectronics

Series

VIPER™r

Type

Pulse Width Modulator Controllerr

Datasheets

1.VIPER53SPTR-E.pdf (36 pages)

2.VIPER53DIP-E.pdf (7 pages)

3.VIPER53DIP-E.pdf (24 pages)

Specifications of VIPER53DIP-E

Output Isolation

Isolated

Frequency Range

93 ~ 300kHz

Voltage - Input

8.4 ~ 19 V

Voltage - Output

620V

Power (watts)

30W

Operating Temperature

25°C ~ 125°C

Package / Case

8-DIP (0.300", 7.62mm)

Current, Supply

9 mA

Frequency, Oscillator

100 kHz

Package Type

DIP-8

Regulator Type

Switching

Resistance, Thermal, Junction To Case

20 °C/W

Temperature, Operating, Range

-40 to +150 °C

Time, Fall

100 ns

Time, Rise

50 ns

Voltage, Supply

13 V

Power Switch Family

VIPer53DIP

Input Voltage

0 to 19V

Power Switch On Resistance

900mOhm

Output Current

1.6A

Number Of Outputs

Single

Mounting

Through Hole

Supply Current

9mA

Operating Temperature (min)

-40C

Operating Temperature (max)

150C

Operating Temperature Classification

Automotive

Pin Count

Mounting Style

Through Hole

For Use With

497-8435 - BOARD EVAL FOR VIPER53 28W497-6458 - BOARD EVAL BASED ON VIPER53-E497-6262 - BOARD REF SGL VIPER53 90-264VAC497-5866 - EVAL BOARD 24W NEG OUT VIPER53E

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

497-6171-5

Current page: 24 of 36
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Short-circuit and overload protection

24/36

Short-circuit and overload protection

A V

When reaching typically V

stops switching. This state is latched because of to the regulation loop which maintains the

COMP pin voltage above the V

more energy from the auxiliary winding, its voltage drops down until it reaches V

the device is reset, recharging the V

drops below the V

resumes switching immediately.

The device enters an endless restart sequence if the overload or short circuit condition is

maintained. The restart duty cycle D

to restart, thus delivering its full power capability to the output. In order to keep the whole

converter in a safe state during this event, D

compromising the real start-up of the converter. A typical value of about 10% is generally

sufficient. For this purpose, both V

following conditions:

Equation 6

Equation 7

Refer to the previous start-up section for the definition of tss, and C

checked against the limit given in this section. The maximum value of the two calculus will

be adopted.

All this behavior can be observed on

of the drain current Id for V

is the drain current to take into account for design purposes. Since I

maximum value for which the overload protection is not triggered, it defines the power

capability of the power supply.

COMP

COMPovl

goes above this level, the capacitor connected on the TOVL pin begins to charge.

threshold of about 4.35V has been implemented on the COMP pin. When

COMPovl

OVLth

VDD

threshold for any reason during the VDD drop, the device

COMP

COMPovl

(4V), the internal MOSFET driver is disabled and the device

= V

RST

OVL

COMPovl

Figure 8 on page

and TOVL capacitors can be used to satisfy the

threshold. Since the V

capacitor for a new restart cycle. Note: If VCOMP

is defined as the time ratio for which the device tries

12.5

------------- - 1

RST

is shown. The corresponding parameter I

–

must be kept as low as possible, without

–

-------------------------------------- -

10. In

tss

OVL

DDhyst

Figure 10 on page 11

DDch2

pin does not receive any

VDD

Dmax

must also be

represents the

VIPer53 - E

DDoff

the value

and

Dmax

VIPER53DIP-E STMicroelectronics, VIPER53DIP-E Datasheet - Page 24

VIPER53DIP-E

Specifications of VIPER53DIP-E

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