beautypg.com

Powersolve TEN25WI Series User Manual

Dc-dc converters, Features

background image

Powersolve Electronics Ltd. 8A Arnhem Road, Newbury, RG14 5RU. England

Tel: 01635 521858 Fax: 01635 523771 Email: [email protected]

DC-DC Converters

Electrical Specification

Output Voltage Adjustment

±10% by external resistor

Conducted EMI

EN55022 class A & FCC level A (internal filter)

Short Circuit Protection

continuous, automatic recovery

Operating Temperature Range

-40°C to +85°C (derate at 2.0%/k above 55°C)

Thermal protection

Shutdown at 115°C

Safety Approvals

cUL/UL 60950-1, IEC/EN 60950-1

Casing

nickel plated copper, 6-side shielded with insulated baseplate

Remote On/Off

Shutdown input for low input current (5mA) in standby operation

Output Voltage and Current Ratings

MODEL

INPUT

OUTPUT

OUTPUT

RIPPLE &

LINE

LOAD

EFF.

VOLTAGE

VOLTAGE

CURRENT

NOISE

REG.

REG.

TEN25-2410WI

3.3VDC

5500mA

80mV pk-pk max.

0.5%

1.0%

82%

TEN25-2411WI

5VDC

5000mA

80mV pk-pk max.

0.5%

1.0%

85%

TEN25-2412WI

10 - 40VDC

12VDC

2500mA

80mV pk-pk max.

0.5%

1.0%

89%

TEN25-2413WI

15VDC

2000mA

80mV pk-pk max.

0.5%

1.0%

89%

TEN25-2422WI

±12VDC

±1250mA

80mV pk-pk max.

0.5%

2.0%

89%

TEN25-2423WI

±15VDC

±1000mA

80mV pk-pk max.

0.5%

2.0%

89%

TEN25-4810WI

3.3VDC

5500mA

80mV pk-pk max.

0.5%

1.0%

82%

TEN25-4811WI

5VDC

5000mA

80mV pk-pk max.

0.5%

1.0%

85%

TEN25-4812WI

18 - 75VDC

12VDC

2500mA

80mV pk-pk max.

0.5%

1.0%

89%

TEN25-4813WI

15VDC

2000mA

80mV pk-pk max.

0.5%

1.0%

89%

TEN25-4822WI

±12VDC

±1250mA

80mV pk-pk max.

0.5%

2.0%

89%

TEN25-4823WI

±15VDC

±1000mA

80mV pk-pk max.

0.5%

2.0%

89%

Output Voltage Adjustments

Features

Ultra wide 4:1 input range

High efficiency up to 89%

I/O isolation 1500VDC

Operating temperature range -40°C to +85°C

Short circuit protection

Adjustable output voltages

Remote On/Off

High power density in a 50.8 x 40.6 x 9.3 mm metal package

www.powersolve.co.uk

TEN25WI Series, 25-30 Watt

Trim output open circuit = Vo nominal