VIPER100A-E STMicroelectronics, VIPER100A-E Datasheet - Page 13

VIPER100A-E

Manufacturer Part Number

VIPER100A-E

Description

IC SWIT PWM SMPS CM PENTAWATT5

Manufacturer

STMicroelectronics

Series

VIPER™r

Datasheet

1.VIPER100ASPTR-E.pdf (31 pages)

Specifications of VIPER100A-E

Output Isolation

Isolated

Frequency Range

90 ~ 200kHz

Voltage - Input

8 ~ 15 V

Voltage - Output

700V

Power (watts)

82W

Operating Temperature

25°C ~ 125°C

Package / Case

Pentawatt-5 HV (Bent and Staggered Leads)

Output Voltage

4.5 V

Output Current

600 uA

Output Power

82 W

Input Voltage

12.6 V to 13.4 V

Switching Frequency

200 KHz

Mounting Style

Through Hole

No. Of Pins

Ic Generic Number

100

Output Current Max

5.3A

Frequency

200kHz

Leaded Process Compatible

Yes

Output Current Min

Rohs Compliant

Yes

Pwm Type

Current Mode PWM Controller

Number Of Pwm Outputs

On/off Pin

Adjustable Output

Switching Freq

90 TO 110kHz

Operating Supply Voltage (max)

15V

Synchronous Pin

Rise Time

50ns

Fall Time

100ns

Mounting

Through Hole

Pin Count

5 +Tab

Package Type

Pentawatt

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

497-4687-5

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Price

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VIPer100A-E/ASP-E

5.4

The soft start feature can be implemented on the COMP pin through a simple capacitor which

will be also used as the compensation network. In this case, the regulation loop bandwidth is

rather low, because of the large value of this capacitor. In case a large regulation loop

bandwidth is mandatory, the schematics of

performance compensation network together with a separate high value soft start capacitor.

Both soft start time and regulation loop bandwidth can be adjusted separately.

If the device is intentionally shut down by tying the COMP pin to ground, the device is also

performing start-up cycles, and the V

This voltage can be used for supplying external functions, provided that their consumption does

not exceed 0.5mA.

shutdown. Once the "Shutdown" signal has been activated, the device remains in the Off state

until the input voltage is removed.

Transconductance Error Amplifier

The VIPer100A-E/ASP-E includes a transconductance error amplifier. Transconductance Gm is

the change in output current (I

The output impedance Z

This last equation shows that the open loop gain A

where G

An impedance Z can be connected between the COMP pin and ground in order to define the

transfer function F of the error amplifier more accurately, according to the following equation

(very similar to the one above):

The error amplifier frequency response is reported in

resistance connected on the COMP pin. The unloaded transconductance error amplifier shows

an internal Z

pin to achieve different compensation level. A capacitor will provide an integrator function, thus

eliminating the DC static error, and a resistance in series leads to a flat gain at higher

frequency, insuring a correct phase margin. This configuration is illustrated in

As shown in

avoid any high frequency interference.

Is also possible to implement a slope compensation when working in continuous mode with

duty cycle higher than 50%.

classical compensation network, and Q1 is injecting the slope compensation with the correct

polarity from the oscillator sawtooth.

VOL

(S)

DDhyst

is defined by specification, but Z

= Gm x Z(S)

= G

CO MP

is the voltage hysteresis of the UVLO logic (refer to the minimum specified value).

value for VIPer100A-E/ASP-E is 1.5 mA/V typically.

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

x Z

COMP

Figure 19

COMP

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

COMP

CO MP

of about 330K . More complex impedance can be connected on the COMP

(see Figure 18)

an additional noise filtering capacitor of 2.2nF is generally needed to

------- -

COMP

Figure 21

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

COMP

at the output of this amplifier (COMP pin) can be defined as:

COMP

shows a typical application of this function, with a latched

) versus change in input voltage (V

COMP

shows such a configuration. Note: R1 and C2 build the

voltage is oscillating between V

and therefore A

(see Figure 17)

VOL

Figure 10.

can be related to G

VOL

can be used. It mixes a high

are subject to large tolerances.

for different values of a simple

DDon

). Thus:

5 Operation Description

and Z

and V

Figure 20

COMP

DDoff

13/31

VIPER100A-E STMicroelectronics, VIPER100A-E Datasheet - Page 13

VIPER100A-E

Specifications of VIPER100A-E

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