ICE3B1565J Infineon Technologies, ICE3B1565J Datasheet - Page 7

ICE3B1565J

Manufacturer Part Number

ICE3B1565J

Description

IC OFFLINE CTRLR SMPS OTP 8DIP

Manufacturer

Infineon Technologies

Series

CoolSET®F3r

Datasheet

1.ICE3B0565J.pdf (26 pages)

Specifications of ICE3B1565J

Output Isolation

Isolated

Frequency Range

58 ~ 76kHz

Voltage - Input

10.3 ~ 27 V

Voltage - Output

650V

Power (watts)

42W

Operating Temperature

-25°C ~ 130°C

Package / Case

8-DIP (0.300", 7.62mm)

Number Of Outputs

Duty Cycle (max)

80 %

Output Voltage

650 V

Output Current

1500 mA

Mounting Style

Through Hole

Switching Frequency

74.5 KHz

Maximum Operating Temperature

+ 150 C

Fall Time

30 ns

Minimum Operating Temperature

- 40 C

Rise Time

30 ns

Synchronous Pin

Topology

Flyback

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

ICE3B1565JX
ICE3B1565JXK
SP000098876

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All values which are used in the functional description

are typical values. For calculating the worst cases the

min/max values which can be found in section 4

Electrical Characteristics have to be considered.

3.1

CoolSET™-F3 Jitter version is the further development

of the CoolSET™-F2 to meet the requirements for the

lowest Standby Power at minimum load and no load

conditions. A new fully integrated Standby Power

concept is implemented into the IC in order to keep the

application design easy. Compared to CoolSET™-F2

no further external parts are needed to achieve the

lowest Standby Power. An intelligent Active Burst

Mode is used for this Standby Mode. After entering this

mode there is still a full control of the power conversion

by the secondary side via the same optocoupler that is

used for the normal PWM control. The response on

load jumps is optimized. The voltage ripple on V

minimized. V

mode.

The usually external connected RC-filter in the

feedback line after the optocoupler is integrated in the

IC to reduce the external part count.

Furthermore a high voltage Startup Cell is integrated

into the IC which is switched off once the Undervoltage

Lockout on-threshold of 18V is exceeded. This Startup

Cell is part of the integrated Depl. CoolMOS™. The

external startup resistor is no longer necessary as this

Startup Cell is connected to the Drain. Power losses

are therefore reduced. This increases the efficiency

under light load conditions drastically.

The Soft-Start capacitor is also used for providing an

adjustable blanking window for high load jumps. During

this time window the overload detection is disabled.

With this concept no further external components are

necessary to adjust the blanking window.

An Auto Restart Mode is implemented in the IC to

reduce the average power conversion in the event of

malfunction or unsafe operating condition in the SMPS

system.

robustness and safety which would otherwise lead to a

destruction of the SMPS. Once the malfunction is

removed, normal operation is automatically initiated

after the next Start Up Phase.

The internal precise peak current limitation reduces the

costs for the transformer and the secondary diode. The

influence of the change in the input voltage on the

power limitation can be avoided together with the

integrated

Therefore the maximum power is nearly independent

on the input voltage which is required for wide range

SMPS. There is no need for an extra over-sizing of the

SMPS, e.g. the transformer or the secondary diode.

Version 2.4

This

Functional Description

Introduction

out

Propagation

is further on well controlled in this

feature

increases

Delay

Compensation.

the

system’s

out

3.2

Figure 3

The Undervoltage Lockout monitors the external

supply voltage V

main line the internal Startup Cell is biased and starts

to charge the external capacitor C

connected to the VCC pin. The VCC charge current

that is provided by the Startup Cell from the Drain pin is

1.05mA. When V

Startup Cell is switched off by the Undervoltage

Lockout and therefore no power losses present due to

the connection of the Startup Cell to the Drain voltage.

To avoid uncontrolled ringing at switch-on a hysteresis

is implemented. The switch-off of the controller can

only take place after active mode was entered and

The maximum current consumption before the

controller is activated is about 300uA.

Drain

CCon

VCC

Power Management

Power-Down Reset

Internal Bias

=18V, bias circuit is switched on. Then the

falls below 10.3V.

Power Management

VCC

. When the SMPS is plugged to the

VCC

Startup Cell

SoftS

exceeds the on-threshold

Reference

Undervoltage Lockout

Voltage

10.3

Auto Restart

Active Burst

CoolSET™-F3

Mode

ICE3Bxx65J

18V

14 Nov 2006

VCC

which is

VCC

ICE3B1565J Infineon Technologies, ICE3B1565J Datasheet - Page 7

ICE3B1565J

Specifications of ICE3B1565J

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