UC2844BDR2G ON Semiconductor, UC2844BDR2G Datasheet - Page 9

UC2844BDR2G

Manufacturer Part Number

UC2844BDR2G

Description

IC CTRLR CURRENT MODE HP 14-SOIC

Manufacturer

ON Semiconductor

Datasheet

1.UC3844BDR2G.pdf (19 pages)

Specifications of UC2844BDR2G

Pwm Type

Current Mode

Number Of Outputs

Frequency - Max

275kHz

Duty Cycle

50%

Voltage - Supply

11 V ~ 25 V

Buck

Boost

Yes

Flyback

Yes

Inverting

Yes

Doubler

Divider

Cuk

Isolated

Yes

Operating Temperature

-25°C ~ 85°C

Package / Case

14-SOIC (3.9mm Width), 14-SOL

Frequency-max

275kHz

Duty Cycle (max)

48 %

Output Voltage

4.95 V to 5.05 V

Output Current

1000 mA

Mounting Style

SMD/SMT

Switching Frequency

500 KHz

Operating Supply Voltage

30 V

Maximum Operating Temperature

+ 85 C

Fall Time

50 ns

Minimum Operating Temperature

- 25 C

Rise Time

50 ns

Synchronous Pin

Topology

Boost, Flyback

Number Of Pwm Outputs

On/off Pin

Adjustable Output

Switching Freq

500KHz

Operating Supply Voltage (max)

30V

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

Package Type

SOIC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

UC2844BDR2G
UC2844BDR2GOSTR

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

UC2844BDR2G

Manufacturer:

ON Semiconductor

Quantity:

3 200

Company:

BOSTOCK HK LIMITED

Part Number:

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Undervoltage Lockout

incorporated to guarantee that the IC is fully functional

before the output stage is enabled. The positive power

supply terminal (V

each monitored by separate comparators. Each has built−in

hysteresis to prevent erratic output behavior as their

respective thresholds are crossed. The V

upper and lower thresholds are 16 V/10 V for the UCX844B,

and 8.4 V/7.6 V for the UCX845B. The V

upper and lower thresholds are 3.6 V/3.4 V. The large

hysteresis and low startup current of the UCX844B makes

it ideally suited in off−line converter applications where

efficient bootstrap startup techniques are required

(Figure 30). The UCX845B is intended for lower voltage

dc−dc converter applications. A 36 V Zener is connected as

a shunt regulator from V

protect the IC from excessive voltage that can occur during

system startup. The minimum operating voltage for the

UCX844B is 11 V and 8.2 V for the UCX845B.

Output

was specifically designed for direct drive of power

MOSFETs. It is capable of up to ±1.0 A peak drive current

and has a typical rise and fall time of 50 ns with a 1.0 nF load.

Additional internal circuitry has been added to keep the

Output in a sinking mode whenever an undervoltage lockout

is active. This characteristic eliminates the need for an

external pulldown resistor.

pins for V

implementation will significantly reduce the level of

switching transient noise imposed on the control circuitry.

This becomes particularly useful when reducing the I

clamp level. The separate V

The diode clamp is required if the Sync amplitude is large enough to cause

the bottom side of C

External

Sync

Input

Two undervoltage lockout comparators have been

These devices contain a single totem pole output stage that

The SOIC−14 surface mount package provides separate

Figure 18. External Clock Synchronization

0.01

(output supply) and Power Ground. Proper

to go more than 300 mV below ground.

8(14)

4(7)

2(3)

1(1)

ref

) and the reference output (V

to ground. Its purpose is to

supply input allows the

Bias

Osc

ref

comparator

5(9)

ref

pk(max)

http://onsemi.com

) are

f +

designer added flexibility in tailoring the drive voltage

independent of V

to this input when driving power MOSFETs in systems

where V

power and control ground connections in a current−sensing

power MOSFET application.

Reference

tolerance at T

UC384XB. Its primary purpose is to supply charging current

to the oscillator timing capacitor. The reference has

short−circuit protection and is capable of providing in

excess of 20 mA for powering additional control system

circuitry.

Design Considerations

wire−wrap or plug−in prototype boards. High frequency

circuit layout techniques are imperative to prevent

pulse−width jitter. This is usually caused by excessive noise

pick−up imposed on the Current Sense or Voltage Feedback

inputs. Noise immunity can be improved by lowering circuit

impedances at these points. The printed circuit layout should

contain a ground plane with low−current signal and

high−current switch and output grounds returning on

separate paths back to the input filter capacitor. Ceramic

bypass capacitors (0.1 mF) connected directly to V

and V

This provides a low impedance path for filtering the high

frequency noise. All high current loops should be kept as

short as possible using heavy copper runs to minimize

radiated EMI. The Error Amp compensation circuitry and

the converter output voltage divider should be located close

to the IC and as far as possible from the power switch and

other noise−generating components.

The 5.0 V bandgap reference is trimmed to ±1.0%

Do not attempt to construct the converter on

Figure 19. External Duty Cycle Clamp and

(R A ) 2R B )C

ref

5.0k

1.44

may be required depending upon circuit layout.

Multi−Unit Synchronization

is greater than 20 V. Figure 23 shows proper

MC1455

= 25°C on the UC284XB, and ±2.0% on the

D (max) +

. A Zener clamp is typically connected

R A ) 2R B

R A

8(14)

4(7)

2(3)

1(1)

To Additional

UCX84XBs

Osc

Bias

5(9)

, V

UC2844BDR2G ON Semiconductor, UC2844BDR2G Datasheet - Page 9

UC2844BDR2G

Specifications of UC2844BDR2G

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