KEPCO HSF 150W User Manual

INSTRUCTION MANUAL

KEPCO

An ISO 9001 Company.

HSF

KEPCO SINGLE OUTPUT 150 WATT

150W

HOT SWAP PLUG-IN POWER SUPPLIES

I — INTRODUCTION

The Kepco HSF 150 Watt Series hot swappable, high frequency switching, plug-in power supplies employ forward conversion
and are designed to operate in a fault tolerant power system with either a-c or d-c input. A resistor and thyristor soft-start circuit
limits start-up surge. A built-in forced current share circuit and OR-ing diodes allow configuration for hot-swap and parallel­redundant N+1 operation.

These power supplies are designed to be used with Kepco’s Series RA 19-(X)B rack adapters (Figure 1). The RA 19-8B rack
adapter accepts up to eight 50 Watt or 100 Watt units; RA 19-7B accepts up to four 50 Watt or 100 Watt units and three 150 Watt
units; RA 19-6B accepts up to six 150 Watt units (see Figure 1). All input/output connections are through a 24 pin connector that
plugs in to the rack adapter. All external connections are made through the rack adapter. Surface mount technology permits effi­cient component layout for minimum mounting space.

Six models may be selected for outputs of 5, 12, 15, 24, 28, or 48V (see Table 1).

When the input is cut off, the output is maintained for 15 milliseconds minimum. If the power supply shuts down due to an output
overvoltage condition, it is then necessary to wait 90 seconds minimum (120V a-c input) or 120 seconds minimum (240V a-c
input) before turning the unit on again. EMI filtering is designed to meet FCC Class B rating and VDE 0871 Class B rating. This
page contains specifications for each model of the HSF 150 Watt Series. Environmental specifications for each model are the
same.

TABLE 1. OUTPUT RATINGS AND SPECIFICATIONS, HSF 150W SERIES

MODEL HSF 5-30 HSF 12-12 HSF 15-10 HSF 24-6 HSF28-5 HSF 48-2.8

OUTPUT VOLTS, d-c (NOMINAL) 5V 12V 15V 24V 28V 48V

ADJUSTMENT RANGE 4.5 - 5.5V 11.4 - 12.6V 13.5 - 16.5V 22.5 - 25.5V 26.5 - 29.5V 45.0 - 51.0

OUTPUT CURRENT (NOMINAL)

OUTPUT POWER (NOMINAL)

RIPPLE

AND

NOISE

(mV p-p)

0-40°C

10-100% LOAD

OVERVOLTAGE SETTING (25 °C, NOM. INPUT)

OVERCURRENT SETTING (25°C, NOM. INPUT)

Rectangular type characteristic

(1) Derates same as Ouptut Power.
(2) See power derating curve, Figure 3.

source (typ)101515152020

source (max) 20 30 40 40 40 40

switching (typ)303540506080

switching (max) 60 70 80 110 140 220

spike noise (d-c—50MHz) <120 <190 <220 <310 <330 <530

(1)

(2)

30A 12A 10A 6A 5A 2.8A

150W 144W 150W 144W 140W 134.4W

6.5 - 7.5V

32.0 - 36.0A 13.0 - 15.0A 11.0 - 13.0A 6.3 - 7.5A 5.3 - 6.1A 3.0 - 3.5A

13.7 - 15.7V 17.0 - 19.0V 27.0 - 30.5V 32.0 - 35.0 53.5 - 60.0

II — FEATURES

FRONT PANEL ACCESS. The front panel provides a power ON/OFF switch controlling input power and a “VDC ON” light

which indicates when the unit is operating. NOTE: The ON/OFF switch must be set to OFF before removing unit from rack
adapter. The front panel “MASTER ON” LED lights when 1) the unit operates independently, or 2) the unit is used in parallel

redundant configurations while a) the output is less than 10% of nominal or b) the output is within 10% to 100% of nominal and
the unit is functioning as a master. In parallel redundant configurations, the module with the highest voltage functions as the
master. The other units are slaves, and track the output voltage of the master. Refer to Current Share Bus (CSB) on page 3 for
details. The front panel Vadj trimmer provides adjustment of the output voltage within the limits specified in Table 1; test points
connected to the +S and –S lines are available at the front panel for measuring the output.

FORCED CURRENT SHARE CIRCUIT. When units are configured for N+1 parallel redundant operation, it is desirable for cur­rent to be divided equally among the paralleled supplies. When the CSB (Current Share Bus) lines of paralleled HSF units are
connected together, the load current is forced to divide equally between all paralleled units. If one unit fails, the remaining units
will continue to supply the load, and the load current will be divided equally among the remaining operating units. The failed unit
is automatically isolated from the circuit by a built-in isolation diode. Refer to Current Share Bus (CSB) on page 3 for details.

KEPCO, INC. " 131-38 SANFORD AVENUE " FLUSHING, NY. 11352 U.S.A. " TEL (718) 461-7000 " FAX (718) 767-1102

©2006, KEPCO, INC 1
Data subject to change without notice 228-1301 REV 4

http://www.kepcopower.com " email: hq@kepcopower.com

ALARM CIRCUIT. The HSF includes an isolated internal relay offering normally closed and normally open contacts refer­enced to an isolated common. These contacts may be used to configure “close on failure” or “open on failure” alarm circuits.
(Refer to the Series RA 19-(X)B Manual for alarm configurations for multiple HSF power supplies.)

KEYING. Keying of the HSF is established at the factory. The output voltage determines which keyway is open. When the
corresponding rack adapter key (pin) is installed by the user, only a power supply of the correct voltage can be inserted in the
rack adapter slot.

FIGURE 1. HSF 150 WATT POWER SUPPLIES (6) INSTALLED IN RA 19-6B RACK ADAPTER

III — SPECIFICATIONS

The following specifications apply to all HSF 150 Watt Series models (also refer to Table 1). Other models are also available;
consult your Kepco representative for their specifications.

INPUT:

Voltage: 120V a-c/240V a-c nominal; Range 95-264V a-c; 125-370V d-c. (polarity insensitive)
Frequency: Nominal 50-60 Hz; Range 47-440Hz (at 440Hz leakage current exceeds UL/VDE safety spec.limit).
Current (nominal output at rated load): @120V a-c rms: 3.0A a-c typ., 3.5A a-c max;

@240V a-c rms: 1.5A a-c typ., 2.0A a-c max.

Initial Turn-on Surge: (one-half of first input cycle): @120V a-c rms, 25A max; @240V a-c rms, 50A max. When the a-c

input power is removed, the inrush current limit circuit requires 30 seconds recovery time before the a-c input power

is reconnected.
Brownout Voltage: 85V a-c, 110V d-c.
Switching Frequency: 120KHz typical, nominal load.

STABILIZATION:

Source Effect: Range 95-132V a-c or 190-264V a-c, 1.0% typ.; 2.0% max.
Load Effect: Range 10%-100% load, 1.0% typ.; 2.0% max.
Temperature Effect: Range 0
Combined Effect: 2.0% typ.; 4.0% max. (includes source, load, and temperature effects).
Time Effect: 0.1% typ.; 0.5% max. (1/2 hr-8 hr at 25

RECOVERY CHARACTERISTICS: A step load change from 50% to 100% produces less than +
Recovery occurs to within +

o

to 40oC, 1.0% typ.; 2.0% max.

o

C).

4% output excursion.

1% of the original setting in <1 ms (load change tr or tf equal to or greater than 50µsec).

START-UP TIME: 200 ms. maximum.

HOLDUP TIME: 20 ms. typ. (120V a-c), 15 ms. min. (100V a-c).

DIELECTRIC STRENGTH:

Between input and output: 2KV a-c for one minute.
Between input and output with Y-capacitor removed: 3KV a-c for one minute.
Between input and case (ground): 2KV a-c for one minute.

INSULATION RESISTANCE: Between input and ground, output and ground, input and output;

100 Megohms min. (500V d-c).

LEAKAGE CURRENT

UL method, 120V a-c: 0.5 mA maximum.
VDE method, 240V a-c: 0.75 mA maximum.

KEPCO, INC. " 131-38 SANFORD AVENUE " FLUSHING, NY. 11352 U.S.A. " TEL (718) 461-7000 " FAX (718) 767-1102

http://www.kepcopower.com " email: hq@kepcopower.com

2 228-1301 REV 4 082306