Zippy DGIH3-6650F User Manual

1.1 INTRODUCTION

First of all, thank you for purchasing DGIHn series redundant power supply.

The DGIHn series is a N+1 hot-swappable / hot-pluggable redundant power supply. It
consists of,

1) complete metal frame

2) compact size power module

3) backplane

It is composed of N+1 pieces power modules. The number N+1 stands for there is an
extra power module to backup the system if any power module fails.

The power module is in compact size, and built-in a 40mm ball bearing DC fan for
better ventilation. Each power module is designed with 6 outputs (+3.3V, +5V, +12V,

-5V, -12V, and +5Vsb) circuits, and compliant to ATX12V / EPS12V. All you can see on
the backplane is just passive components and this is the key point for longer MTBF.

The DGIHn series offer a warning sub-system, including LED display, buzzer alarm,
TTL signal, and I2C interface device (optional). It guides user the fast way to find out
the power supply and DC fan status.

When all the power modules operate normally, it balances the load share through its
parallel design, which increases the reliability of power system.

To really discover the power system and ease in using it, we recommend you to read
through this manual carefully.

1.2 PACKING

Your DGIHn series should consist of the following,

a) DGIHn x 1
b) Accessory pack x 1
c) Product Manual x 1

1.3 MODEL DESINGATION

Model number identification

DGIHn-6zzzy

H --- horizontal
n --- number of power module
6 --- 6 output channel (+3.3V, +5V, +12V, -5V, -12V & +5Vsb)
zzz --- total output power, zzz – 650 / 950 (unit: watts)
y --- F: built-in EMI FCC

1.4 FEATURES

DGIHn series, 350W * 2 / 350W * 3 / 350W * 4 redundant power supply with ,
complaint to ATX12V / EPS12V

l True redundant design (passive packplane)
l N+1 power system design
l All circuit designed into the power module
l Hot-swap and hot-plug ability
l Balance load sharing design
l Remote sensing design
l Meet FCC, CISPR EMI regulation
l Faulty free- slide rail design
l Smart I2C interface design (optional)
l Designed with one 40mm ball bearing DC fan on power module

1.5 DRAWING

1.6 SPECIFICATION

INPUT CHARACTERISTICS: DGIH3-6650F

l VOLTAGE: DC -36 V~ -72 V
l INPUT CURRENT: 28.0 A ( RMS ) FOR -48VDC
l INRUSH CURRENT: LESS THAN 10A FOR EACH MODULE

OUTPUT CHARACTERISTICS:

OUTPUT

VOLTAGE

OUTPUT CURRENT REGULATION OUTPUT

MIN. [A] MAX. [A] LOAD LINE

RIPPLE & NOISE

MAX. [P-P]

5V 3.0 60 ± 5% ± 50mV 50mV

12V 2.0 40 ± 5% ±120mV 100mV

-5V 0.1 1.0 ±10% ± 120mV 150mV

-12V 0.1 1.0 ±10% ± 120mV 150mV

3.3V 1.0 40 ± 5% ± 50mV 50mV

+5VSB 0.1 2.5 ± 5% ± 50mV 50mV

REMARKS:

1. THE OUTPUT POWER OF 5V & 3.3V MAX: 70A

2. +5V, +3.3V AND +12V TOTAL OUTPUT MAX: 630W

SPECIFICATION:

l TEMPERATURE RANGE: OPERATING: -10℃ --- 40℃(-36V ~-72VDC INPUT)

-10℃ --- 50℃(-46V~-72VDC INPUT)

l STORAGE: -20℃ --- 80℃
l HOLD UP TIME: 1.6 ms MINIMUM AT FULL LOAD & NORMAL INPUT VOLTAGE
l DIELECTRIC WITHSTAND: INPUT / OUTPUT 1500 VAC FOR 1 SECOND

INPUT TO FRAME GROUND 1500 VAC FOR 1 SECOND

l EFFICIENCY: 65% TYPICAL AT –48VDC FULL LOAD
l POWER GOOD SIGNAL: ON DELAY 100 ms TO 500 ms
l OVER POWER PROTECTION: 110% ~ 160%

OVER VOLTAGE PROTECTION: +5V à 5.7V ~ 6.7V, 3.3V à 3.7V ~ 4.7V

+12V à 13.0V ~ 15.0V

OVER CURRENT PROTECTION: 110% ~ 150%

l SHORT CIRCUIT PROTECTION: +5V, +12V, +3.3V, AUTO RECOVERED: 5VSB, -5V, -12V
l EMI NOISE FILTER: FCC CLASS A, CISPR22 CLASS A
l SAFETY: UL 60950, CSA 22.2 NO/ 60950, TÜV CCC GB4943-1995, GB9254-1998,

GB17625.1-1998

l REMOTE ON / OFF CONTROL

THE UNIT SHALL ACCEPT A LOGIC OPEN COLLECTOR LEVEL WHICH WILL DISABLE /
ENABLE ALL THE OUTPUT VOLTAGE (EXCLUDE +5V STANDBY),
AS LOGIC LEVEL IS LOW, OUTPUTS VOLTAGE WERE ENABLE,
AS LOGIC LEVEL IS HIGH, OUTPUTS VOLTAGE WERE DISABLE.

l FAULTY ALARM METHODS:LED, BUZZER,TTL SIGNAL.
l 2+1, HOT-SWAPPABLE/ HOT-PLUGGABLE REDUNDANT FUNCTION.
l BALANCE LOAD SHARING DESIGN ON 5/12/3.3V CHANNEL.
l ISOLATION:BUILT-IN IN THE POWER MODULE.
l REMOTE SENSING DESIGN.
l DIMENSION: 330 (D) x 290 (W) x 41 (H) mm
l CONNECTOR POWER INPUT

A. POSITRONIC: PLB06M CONNECTOR

B. TERMINAL BLOCK

INPUT CHARACTERISTICS: DGIH4-6950F

MAX.[A]

l VOLTAGE: DC -36 V ~ -72 V
l INPUT CURRENT: 40A (RMS), FOR –48VDC
l INRUSH CURRENT : LESS THAN 10A.FOR EACH POWER UNIT

OUTPUT CHARACTERISTICS:

OUTPUT

VOLTAGE

+5V 3.0 90 ±

-5V 0.1 1.2

+12V 2 60

-12V 0.1 2

+3.3V 1.0 54

+5VSB 0.1 5

OUTPUT CURRENT REGULATION OUTPUT

MIN.[A]

PEAK(A)

LOAD LINE

50mV

5%

10%

±

5%

±

10%

±

5%

±

5%

±

±

50mV

±

120mV

±

120mV

±

50mV

±

50mV

±

MAX. [P-P]

50mV

150mV

120mV

150mV

50mV

50mV

RIPPLE & NOISE

REMARKS: 1. THE OUTPUT POWER OF 5V & 3.3V MAX:95A

2.+5V, +3.3V AND +12V TOTAL OUTPUT MAX:900W

l TEMPERATURE RANGE: OPERATING: -10℃ --- 40℃(-36V ~-72VDC INPUT)

-10℃ --- 50℃(-46V~-72VDC INPUT)

l STORAGE: -20℃ --- 80℃
l HOLD UP TIME: 1.6 ms MINIMUM AT FULL LOAD & NORMAL INPUT VOLTAGE
l DIELECTRIC WITHSTAND: INPUT / OUTPUT 1500 VAC FOR 1 SECOND

INPUT TO FRAME GROUND 1500 VAC FOR 1 SECOND

l EFFICIENCY: 65% TYPICAL AT –48VDC FULL LOAD
l POWER GOOD SIGNAL: ON DELAY 100 ms TO 500 ms
l OVER POWER PROTECTION: 110% ~ 160%

OVER VOLTAGE PROTECTION: +5V à 5.7V ~ 6.7V, 3.3V à 3.7V ~ 4.7V

+12V à 13.0V ~ 15.0V

OVER CURRENT PROTECTION: 110% ~ 150%

l SHORT CIRCUIT PROTECTION: +5V, +12V, +3.3V, AUTO RECOVERED: 5VSB, -5V, -12V
l EMI NOISE FILTER: FCC CLASS A, CISPR22 CLASS A
l SAFETY: UL 60950, CSA 22.2 NO/ 60950, TÜV CCC GB4943-1995, GB9254-1998,

GB17625.1-1998

l REMOTE ON / OFF CONTROL

THE UNIT SHALL ACCEPT A LOGIC OPEN COLLECTOR LEVEL WHICH WILL DISABLE /
ENABLE ALL THE OUTPUT VOLTAGE (EXCLUDE +5V STANDBY),
AS LOGIC LEVEL IS LOW, OUTPUTS VOLTAGE WERE ENABLE,

l AS LOGIC LEVEL IS HIGH, OUTPUTS VOLTAGE WERE DISABLE.
l FAULTY ALARM METHODS : LED, BUZZER, TTL SIGNAL
l 3+1,HOT-SWAPPABLE / HOT-PLUGGABLE REDUNDANCY FUNCTION
l BALANCE LOAD SHARING DESIGN ON 5/12/3.3V CHANNEL
l REMOTE SENSING DESIGN
l ISOLATION: BUILT-IN THE POWER MODULE
l DIMENSION: 41(H) X 383(W) X 330 (D) mm

1.7 INSTALLATION & TESTING

Mount the power supply into the system chassis by using proper mounting tool. The
mounting holes of the power supply should match up with those in the chassis.
Connect the power connectors to the M/B by following the M/B instruction. There is
various on connectors / pinouts in both power supply and M/B. Please ensure to
connect the matched one; otherwise, it will cause unexpected harms.

Connect the remaining power connectors to the various peripherals as needed. These
connectors are “keyed”, so there will be only one possible way to connect them.

Before applying power source to the system, make sure these is no loosed or
incorrect connectors. Double check if all connection to the M/B is matched properly.
Maybe you would like to test the redundancy function before you put back the cover of
your system chassis, then, please power it on. If the power system operates normally,
the individual LEDs on power module and the external warning LED light in GREEN.
Now, remove one power module from the power system, the warning buzzer in the
power system will sound, the external warning LED, which displays the status of the
total power system, will become blinking, the individual LED indicating the power
module’s status will distinguish. Meanwhile, the power system will continue to backup
the power output without affecting the operation of your computing system.

The warming buzzer will sound continuously. You can reset warning buzzer by
pressing the buzzer reset switch. Insert the power module which is removed for test
earlier. The sound of the warning buzzer will stop; the external warning LED will turn
to be GREEN again; the LED indicating the status of power module will light in
GREEN. Test another power supply by performing the same procedure.

If everything works out fine, then turn off the power system. Now put back the cover of
the chassis and tighten with the screws which you have retained earlier. Now you
have completed the installation of DGIHX series redundant power supply.

1.8 Hot-swap procedures

Please refer to the following when either power module is defective.

1) Locate the defective power module by examining the individual LED (if LED is
distinguished, it indicates the power module is defective).

*** WARNING:

Please perform the following step carefully; otherwise, it may cause the whole system
shutdown.

*** WARNING:

Please do not remove the defective power module until you have worn gloves to keep
from been burned. This is due to the cover of the power module is used as heat sink
for cooling. Usually, its temperature is around 50-60 degree Celsius under full load
condition.

2) Loose the screws of power module bracket.

3) Plug out the defective power module.

*** WATNING:

Please put aside the power module to wait for cooling down. Keep other people from
toughing it until it is cooled.

4) Replace a new / GOOD power module. Insert the power module into the power
system till to the end.

5) Check the LED of the power module, which should be in GREEN.

6) Check the warning LED indicating the status of total power system, which should
be in GREEN.

7) Tighten the screws of the power module.

8) If you want to test this new power module and simulate the defective situation,
please refer to Section 1.7 Installation & Testing.

Remarks: If the DC fan of the power module fails, you have to replace the power
module. Please follow the Hot-Swap Procedures for replacement.

1.9 PINOUTS AND FUNCTION OF THE CONNECTORS

THE LED CONNECTOR OF TOTAL POWER SYSTEM

PIN# COLOR

1 BLACK
2 GREEN

THE BUZZER RESET SWITCH CONNECTOR

PIN# COLOR

1 BLACK
2 YELLOW

THE SIGNAL CONNECTOR OF POWER RESET

PIN# COLOR COLOR

1 RED TTL SIGNAL
2 BLACK GND

TTL signal:
Sink current max. 5mA
Source current max. 50uA
Low Active ---Defective
High ---Normal

1.10 TROUBLE SHOOTING

If you have followed these instructions correctly, it should function normally.

Some common symptoms are, the system doesn’t work, buzzer alarms, shutdown
after running a very short period,… etc. If so, please check the following steps to verify
and correct it.

1) Check all connection (if pinouts is correct, if any connection loosed, if the direction
is incorrect,… etc.).

2) Check if any short-circuit or defective peripherals by plugging out the power
connector from each peripheral, one at a time. Shall the system functions again, you
have solved the problem.

3) Once you hear the buzzer sound or see the warning LED become blinking, please

check,

a) If the loading is under the minimum or over the maximum load of each

channel.

b) If the power source is well connected and supplied.

Shall the above condition is happened, please disconnect the power source and
wait for 2-3 minutes to release the protection status; then test it again.

c) If buzzer keeps alarming or LED indicates the power module failure, please

locate which power module is defective. Perform hot-swap procedures (ref. to
Sec. 1.8 Hot-Swap Procedures). Return the defective power module back to
your vendor for RMA procedure.

d) If you can not fix the problem, please contact your vendor for supporting.

Note:
* The description stated herein is subject to change without prior notice.
* All brand names and trademarks are the property of their respective owners.