SI9110DY-T1 Vishay, SI9110DY-T1 Datasheet - Page 5

SI9110DY-T1

Manufacturer Part Number

SI9110DY-T1

Description

Current Mode PWM Controllers 1% High-Voltage Switchmode

Manufacturer

Vishay

Datasheets

1.SI9110DY-T1.pdf (8 pages)

2.SI9110DY-T1.pdf (9 pages)

Specifications of SI9110DY-T1

Number Of Pwm Outputs

On/off Pin

Yes

Adjustable Output

Switching Freq

1MHz

Operating Supply Voltage (max)

13.5V

Synchronous Pin

Rise Time

40ns

Fall Time

40ns

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

SOIC N

Number Of Outputs

Mounting Style

SMD/SMT

Package / Case

SOIC-14 Narrow

Switching Frequency

1000 KHz

Operating Supply Voltage

9.5 V to 13.5 V

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Topology

Flyback, Forward, Push-Pull

Pwm Type

Current Mode PWM Controller

Lead Free Status / RoHS Status

Not Compliant

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Company

Part Number

Manufacturer

Quantity

Price

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Part Number:

SI9110DY-T1

Manufacturer:

SILICON LABS/芯科

Quantity:

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Company:

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Part Number:

SI9110DY-T1-E3

Manufacturer:

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Company:

Meier Automation Equipment Co., Limited

Part Number:

SI9110DY-T1-E3

Manufacturer:

SILICON LABS/芯科

Quantity:

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PIN CONFIGURATIONS AND ORDERING INFORMATION

DETAILED DESCRIPTION

Pre-Regulator/Start-Up Section

Due to the low quiescent current requirement of the Si9110/

9111 control circuitry, bias power can be supplied from the

unregulated input power source, from an external regulated

low-voltage supply, or from an auxiliary "bootstrap" winding

on the output inductor or transformer.

When power is first applied during start-up, + V

draw a constant current. The magnitude of this current is

determined by a high-voltage depletion MOSFET device

which is connected between + V

start-up circuitry provides initial power to the IC by charging

an external bypass capacitance connected to the V

The constant current is disabled when V

be regulated to a nominal value of 8.6 V by the pre-regulator

circuit.

As the supply voltage rises toward the normal operating

conditions, an internal undervoltage (UV) lockout circuit

keeps the output driver disabled until V

undervoltage lockout threshold (typically 8.1 V). This

guarantees that the control logic will be functioning properly

and that sufficient gate drive voltage is available before the

MOSFET turns on. The design of the IC is such that the

undervoltage lockout threshold will be at least 300 mV less

than the pre-regulator turn-off voltage. Power dissipation can

be minimized by providing an external power source to V

such that the constant current source is always disabled.

Note: During start-up or when V

start-up circuit is capable of sourcing up to 20 mA. This may

lead to a high level of power dissipation in the IC (for a 48 V

input, approximately 1 W). Excessive start-up time caused

by external loading of the V

damage. Figure 6 gives the typical pre-regulator current at

BiC/DMOS as a function of input voltage.

BIAS

To properly set the bias for the Si9110/9111, a 390 k

resistor should be tied from BIAS (pin 1) to - V

determines the magnitude of bias current in all of the analog

Document Number: 70004

S11-0975-Rev. I, 16-May-11

THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT

is not forced to exceed the 8.6 V threshold, then V

OSC OUT

OUTPUT

SENSE

BIAS

- V

Dual-In-Line and SOIC

Top View

supply can result in device

drops below 8.6 V the

and V

COMP

RESET

SHUTDOWN

DISCHARGE

OSC IN

REF

exceeds 8.6 V. If

This document is subject to change without notice.

exceeds the

(pin 6). This

(pin 5). This

(pin 2) will

pin.

will

sections and the pull-up current for the SHUDOWN and

RESET pins. The current flowing in the bias resistor is

nominally 15 µA.

Reference Section

The reference section of the Si9110 consists of a

temperature compensated buried zener and trimmable

divider network. The output of the reference section is

connected internally to the non-inverting input of the error

amplifier. Nominal reference output voltage is 4 V. The

trimming procedure that is used on the Si9110 brings the

output of the error amplifier (which is configured for unity gain

during trimming) to within ± 1 % of 4 V. This compensates for

input offset voltage in the error amplifier.

The output impedance of the reference section has been

purposely made high so that a low impedance external

voltage source can be used to override the internal voltage

source,

performance of the device.

Applications which use a separate external reference, such

as non-isolated converter topologies and circuits employing

optical coupling in the feedback loop, do not require a

trimmed voltage reference with 1 % accuracy. The Si9111

accommodates the requirements of these applications at a

lower cost, by leaving the reference voltage untrimmed. The

10 % accurate reference thus provided is sufficient to

establish a dc bias point for the error amplifier.

Error Amplifier

Closed-loop regulation is provided by the error amplifier,

which is intended for use with "around-the-amplifier"

compensation. A MOS differential input stage provides for

low input current. The noninverting input to the error amplifier

supply and should be bypassed with a small capacitor to

ground.

ORDERING INFORMATION

Part Number

Si9110DY

Si9110DY-T1

Si9110DY-T1-E3

Si9111DY

Si9111DY-T1

Si9111DY-T1-E3

Si9110DJ

Si9110DJ-E3

Si9111DJ

Si9111DJ-E3

REF

) is internally connected to the output of the reference

desired,

Temperature Range

without

- 40 °C to 85 °C

Si9110, Si9111

otherwise

Vishay Siliconix

www.vishay.com/doc?91000

www.vishay.com

altering

Package

SOIC-14

PDIP-14

the

SI9110DY-T1 Vishay, SI9110DY-T1 Datasheet - Page 5

SI9110DY-T1

Specifications of SI9110DY-T1

Available stocks

Related parts for SI9110DY-T1