FS7M0880YDTU Fairchild Semiconductor, FS7M0880YDTU Datasheet - Page 6

FS7M0880YDTU

Manufacturer Part Number

FS7M0880YDTU

Description

IC SWIT PWM CM OVP UVLO HV TO3P

Manufacturer

Fairchild Semiconductor

Datasheets

1.FS7M0880YDTU.pdf (12 pages)

2.FS7M0880YDTU.pdf (18 pages)

Specifications of FS7M0880YDTU

Output Isolation

Isolated

Frequency Range

60 ~ 72kHz

Voltage - Input

9 ~ 30 V

Voltage - Output

800V

Power (watts)

190W

Operating Temperature

25°C ~ 150°C

Package / Case

TO-3P-5

Power Switch Family

FS7M0880

Input Voltage

-0.3 to 8.1V

Power Switch On Resistance

1.2Ohm

Output Current

Number Of Outputs

Single

Mounting

Through Hole

Supply Current

8mA

Package Type

TO-3P

Operating Temperature (min)

-25C

Operating Temperature (max)

85C

Operating Temperature Classification

Commercial

Pin Count

5 +Tab

Power Dissipation

190W

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

FS7M0880YDTU_NL
FS7M0880YDTU_NL

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FS7M0880

circuit can perform undesired operations even during

transient state, which lasts until normal operation. As a

measure against this problem, this protection circuit in the

SPS operates after a specified period to determine whether

the condition is a transient or an overload. This is done to

prevent protection circuit operation during a transient state,

which returns normal after a specified period. This operation

is described as follows.

Because the FPS uses the current control mode, it cannot

flow current over the set maximum current, and therefore the

maximum input power is restricted at the characteristic

voltage. Therefore, if the output consumes beyond this

maximum power, V

less than the set voltage and only the provided minimum

current can flow through KA431. As a result, the secondary

current of the photocoupler becomes almost zero. If all the

SPS’s 0.9mA current source flows through the internal

resistor (2.5R + R

and the 4 A current starts to charge Cfb. Because the

photocoupler secondary current is almost zero, Vfb

continues to increase until it reaches 7.5V, at which time the

SPS shutsdown. The delay time to shutdown is the time

required to charge Cfb to 4.5V with 4 A and can be easily

set. When Cfb is 10nF(103), t2 is approximately 11.2mS and

when 0.1 F(104) approximately 120ms. With this amount of

the SPS does not shutdown for most transient states. Just

increasing Cfb to obtain a longer delay time can become a

problem, because Cfb is an important parameter for

determining the response speed (Dynamic Response) of the

SMPS. Similarly, Vfb exceeds 3V and the 4uA current starts

to charge the Cfb. At this time, Vfb continues to increase

until it becomes 7.5V, at which time a resistor could be

added between the F/B pin and GND to lengthen the time to

7 . 5 V

3 . 9 V

3 . 0 V

3 . 9 V

3 . 0 V

0 V

, shown in the figure below, becomes

3k), Vfb becomes approximately 3V,

V o

T im e C o n s ta n t

t 1 t 1 t 1 t 1

= 3 . 5 R * C f b

K A 4 3 1

t2 t2 t2 t2

Figure 3. SPS Delayed Shutdown

V fb

C d

V z = 3 .9 V

4 u A = C fb * 0 .9 V / t 2

4 u A = C d * 3 .6 V / t3

C fb

SPS shutdown. If a part of delay current go through the

added resistor, the time to shutdown can be lengthened. In

our test the delay shutdown time with Cfb(473) and resistor

(3.9M) is about two times longer than with only Cfb(473).

When Vfb is 7.5V, the current flowing through this 3.9m

resistor is approximately 1.9 A. To obtain the same results,

if a zener diode (about 3.9 ~ 4.7V) in series connection with

a capacitor is parallel-connected to Cfb, as depicted in Fig 3.,

the desired shutdown delay time could be obtained according

to the size of the capacitor.

Over voltage Protection Circuit

The FPS has a self-protection feature against malfunctions,

such as feedback circuit open or short-circuit. When the

feedback terminal short circuits as seen from the primary

side, the feedback terminal voltage becomes zero, and

switching cannot start as a result. If the feedback terminal

opens, then the protection circuit initiates as in the overload

protection circuit. If the feedback terminal looks open due to

a malfunction in the secondary side feedback circuit or a

non-solder, the primary side continues to switch with the set

maximum current until the protection circuit come on;

therefore, it is normal for the secondary side voltage to

become much greater than the rated voltage. If there was no

protection circuit guarding against such conditions, the fuse

can blow or, even more serious, a fire can start. Even if it

does not lead such dire circumstances, the IC connected to

the secondary side without a regulator could be destroyed

(especially the digital IC such as TTL IC etc.) For such

instances, time, the over voltage protection circuit

(protection against feedback circuit abnormalities) starts to

operate in the SPS. In such circumstances, the output

voltage, which increases tremendously, is made proportional

# 4

7 .5 V

t 3 t 3 t 3 t 3

4 u A

D 1

D 2

V fb *

0 .9 m A

S h u td o w n

t t t t

FS7M0880YDTU Fairchild Semiconductor, FS7M0880YDTU Datasheet - Page 6

FS7M0880YDTU

Specifications of FS7M0880YDTU

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