FSCQ1565RTYDTU Fairchild Semiconductor, FSCQ1565RTYDTU Datasheet - Page 16

FSCQ1565RTYDTU

Manufacturer Part Number

FSCQ1565RTYDTU

Description

IC SWIT PWM GREEN OVP HV TO220

Manufacturer

Fairchild Semiconductor

Datasheet

1.FSCQ1565RTYDTU.pdf (45 pages)

Specifications of FSCQ1565RTYDTU

Output Isolation

Isolated

Frequency Range

18 ~ 22kHz

Voltage - Input

9 ~ 20 V

Voltage - Output

650V

Power (watts)

210W

Operating Temperature

25°C ~ 150°C

Package / Case

TO-220-5 Full Pack (Formed Leads)

Power Switch Family

FSCQ1565RT

Input Voltage

-0.3 to 20V

Power Switch On Resistance

530mOhm

Output Current

7.04A

Number Of Outputs

Single

Mounting

Through Hole

Supply Current

7mA

Package Type

TO-220F

Operating Temperature (min)

-25C

Operating Temperature (max)

85C

Operating Temperature Classification

Commercial

Pin Count

5 +Tab

Power Dissipation

75W

On Resistance (max)

0.53 Ohms

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 25 C

Maximum Power Dissipation

75000 mW

Mounting Style

Through Hole

Supply Voltage (max)

20 V

Power Dissipation Pd

170W

No. Of Pins

Operating Temperature Range

-25Â°C To +85Â°C

Filter Terminals

Through Hole

Output Current Max

12A

Peak Reflow Compatible (260 C)

Yes

Rohs Compliant

Yes

Current Rating

8.0A

Leaded Process Compatible

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

FSCQ1565RTYDTU_NL
FSCQ1565RTYDTU_NL

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Current page: 16 of 45
Download datasheet (2Mb)

FSCQ-Series Rev. 1.1.2

reaches the second minimum level, as shown in Figure

10. Once the FSCQ-Series enters into the extended

quasi-resonant operation, the ﬁrst sync signal is ignored.

After the ﬁrst sync signal is applied, the sync threshold

levels are changed from 4.6V and 2.6V to 3V and 1.8V,

respectively, and the MOSFET turn-on time is synchro-

nized to the second sync signal. The FSCQ-Series

returns to its normal quasi-resonant operation when the

switching frequency reaches 45kHz as the load

increases.

3. Feedback Control: The FSCQ-Series employs cur-

rent mode control, as shown in Figure 11. An optocou-

pler (such as Fairchild’s H11A817A) and shunt regulator

(such as Fairchild’s KA431) are typically used to imple-

ment the feedback network. Comparing the feedback

voltage with the voltage across the Rsense resistor plus

an offset voltage makes it possible to control the switch-

ing duty cycle. When the reference pin voltage of the

KA431 exceeds the internal reference voltage of 2.5V,

the H11A817A LED current increases, pulling down the

feedback voltage and reducing the duty cycle. This event

typically happens when the input voltage is increased or

the output load is decreased.

3.1 Pulse-by-Pulse Current Limit: Because current

mode control is employed, the peak current through the

SenseFET is limited by the inverting input of the PWM

comparator (Vfb*) as shown in Figure 11. The feedback

current (I

the maximum cathode voltage of diode D

which occurs when all I

resistors. Since D

(Vfb) exceeds 2.8V, the maximum voltage of the cathode

MOSFET Gate

sync

4.6V

2.6V

Figure 10. Extended Quasi-Resonant

) and internal resistors are designed so that

Operation Waveforms

is blocked when the feedback voltage

ﬂows through the internal

is about 2.8V,

1.8V

of D2 is clamped at this voltage, thus clamping Vfb*.

Therefore, the peak value of the current through the

SenseFET is limited.

3.2 Leading Edge Blanking (LEB): At the instant the

internal Sense FET is turned on, there is usually a high

current spike through the Sense FET, caused by the

external resonant capacitor across the MOSFET and

secondary-side rectiﬁer reverse recovery. Excessive volt-

age across the R

back operation in the current mode PWM control. To

counter this effect, the FSCQ-Series employs a leading

edge blanking (LEB) circuit. This circuit inhibits the PWM

comparator for a short time (T

is turned on.

4. Protection Circuits: The FSCQ-Series has several

self-protective functions such as over load protection

(OLP), abnormal over current protection (AOCP), over

voltage protection (OVP), and thermal shutdown (TSD).

OLP and OVP are auto-restart mode protections, while

TSD and AOCP are latch mode protections. Because

these protection circuits are fully integrated into the IC

without external components, the reliability can be

improved without increasing cost.

– Auto-restart mode protection: Once the fault condi-

tion is detected, switching is terminated and the

SenseFET remains off. This causes V

Vcc falls to the under voltage lockout (UVLO) stop volt-

age of 9V, the protection is reset and the FSCQ-Series

consumes only startup current (25µA). Then, the Vcc

capacitor is charged up, since the current supplied

through the startup resistor is larger than the current

that the FPS consumes. When V

voltage of 15V, the FSCQ-Series resumes its normal

operation. If the fault condition is not removed, the

SenseFET remains off and V

again. In this manner, the auto-restart can alternately

enable and disable the switching of the power

SenseFET until the fault condition is eliminated (see

Figure 12).

H11A817A

KA431

Modulation (PWM) Circuit

Figure 11. Pulse Width

sense

delay

resistor can lead to incorrect feed-

D1 D2

ref

LEB

2.5R

) after the Sense FET

OSC

drops to stop voltage

OLP

reaches the start

Driver

Gate

www.fairchildsemi.com

to fall. When

sense

SenseFET

FSCQ1565RTYDTU Fairchild Semiconductor, FSCQ1565RTYDTU Datasheet - Page 16

FSCQ1565RTYDTU

Specifications of FSCQ1565RTYDTU

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