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G8MNY > TECH 25.08.10 23:41l 236 Lines 11964 Bytes #999 (0) @ WW
BID : 60616_GB7CIP
Read: GUEST
Subj: APC Smart 900 UPS
Path: IZ3LSV<IK2XDE<DB0RES<ON0AR<GB7CIP
Sent: 100825/2229Z @:GB7CIP.#32.GBR.EU #:60616 [Caterham] $:60616_GB7CIP
From: G8MNY@GB7CIP.#32.GBR.EU
To : TECH@WW
By G8MNY (Update Dec 07)
(8 Bit ASCII graphics use code page 437 or 850, Terminal Font)
This is some info I have found out on this American Power Conversion UPS.
(Uninterruptable Power Supply)
SCHEMATIC v v v
ZDDDD?ZDDDDD?ZDDDDDD? ZDDADD?ZDDDADDDD? ZDDDDDDDDDDD? ZDDDADDD? ZDDD?
In>412A C4SpikeC4Mains CB4ON ORC4BOOST ORCD4 Large CB4 Smpsu CDB4BatC>
IEC3Trip33Clamp33Filter333 FAIL33 NORMAL CB4Transformer33@DDDDDDDY 33Mon3
@DDDDY@DDDDDY@DDDDDDY3@DDDDDY@DDDDDDDDY3@DDDDDDDDDDDY3ZDDDDDDDD?3@DDDY
3ZDDDDDD? 3ZDDDDDDD? @4SM Sine CA<Batteries
@4In MonC> C4Out MonC> 3Inverter3
v @DDDDDDY 3@DDDDDDDY @DDDDDDDBY
Out ZDDDADDD? ZDDDDDDDDDD? ZDDDDD? 3 ZDDDDDDDDDDDDD? ^
4x<DD4LOAD ONCD4Filter CapCD4I MonCDDDDDDDY >4uProc ControlC>
IEC @DDDDDDDY @DDDDDDDDDDY @DDDDDY @DDDDDDDDDDDDDY
The control sorts out what is the required state for the 3 relays (CAPITALS)
from the various monitoring function inputs. It also predicts battery life.
It is a switched UPS system, which means there is a very short break (10ms?) in
the output when the supply goes out of limits (fails) & the inverter cuts in.
MAINS CIRCUIT
MAINS FILTERS (Fail) (Boost)
Trip L1 L2 RY3 RY2
LDDo-oDBDDBDDBDD? ZDDDBDD? ZDDBDDDDDDo oDDDDDDDo-oDDDBDDDDD?
12A 3 3 3 3 3 3 3 3 F1 o/ o 3 3
3 3 3 3 3 3 3 3 1A @Inv Volt @DDD)DD?___): __
MAINS 3 VDR 3 ())) === ())) 3 Mon 3 ):( 24 DC
INPUT VDR 3 === ==== ZD4 ==== ):( Mains ZDF2D4 T3 ):(__ INVERTER
ED? 3 31u3 ())) 3=== ())) ):( Mon O/P ):( 3 ): & CHARGER
A 3 3 3 3 3 A 3 3 3 ): T1 Mon ):(T2 3 3 650W 3
3 3 3 3 3 3 3 3 3 :( 3 3 A
NDDDDDDADDADDADDY @DDDADDY @DDADDDDDDDDDDDDDDDDDADDDD)DDDDD4
RY1 3 3
ZDDDDDBDDDDBDDDDBDDDDDDDDDDo\oDDDDDDDDBDDDDDDDDDDDDDDDY ):( CT2
L L L L (Load) ):( CT1 Mon. 3 Current
EDD? OUTPUT 3 Inverter 3 Mon.
N A N N N 4u7=== Current 3
@DDDDDADDDDADDDDADDDDDDDDDDDDDDDDDDDDDADDDDDDDDDDDDDDDDDDDDDY
If the mains is just low, then RY2 is operated to obtain more voltage.
INVERTER
The 24V volt inverter uses a powerful bridged Class D 16 FET amp at many kHz.
3:2[2:3 Phase 1 +24V HF pulses
3:2[2:3 fed via the 2
~~~~~~~~~~~~~~~~~~~ FET outputs to
3:2[2:3 each side of
3:2[2:3 Phase 2 the transformer.
~~~~~~~~~~~~~~~~~~~
.-.
/ \ These pulses do not get through
| | T3 & the 4u7 capacitor so the
| | | resultant filtered output is a
| | rounded mean of those needle
\ / pulses to make a 50Hz sine wave.
'-'
There are several feedback loops that control the output.
1) The 50Hz is locked in phase to the incoming supply when it is present so
there is less of a voltage jump on changeover.
2) Output Voltage feedback ensures regulated voltage.
3) Over current alarms & then kills the inverter, protecting it from damage.
BATTERY CHARGING
The 24V charging system uses a SMPSU fed from T3 secondary. This "rings up" a
ferrite choke to reach the higher battery voltage something like this.
ZD4>CDBD4>CDBD()))DBDDDDD4>CDBDDDDDBDDDBDD>+
3 16V 3 :::: \3 _____3_ 3 3 27.4V
3 AC 3 CD4 SM 3 === === Charging
CD4>CDAD4>CD4 e/3 3 Drive 3 3 3 Battery
3 === 3 @DBDDDBDY 3 3 2A max
@DDDDDDDDDDDADDDDDDADDDDDADRDADDDDDADDDADD>-
Batteries, as with most UPSs of the sort they are literally CAINED to get the
performance! So don't expect them to last long. On full discharge something
like 33 amps is drawn from 4 small 6V dry fit 11AH batteries. This is like
pulling your car starter for 5-10 mins! OK for the odd 2 second start, but not
for mains replacement. In my application these will be boosted by large
external batteries.
APPROX SPECIFICATION of APC SMART 900
=====================================
Input Option 1(1)2(1)3(1)4(0) 204-263V 48-56Hz
Output Option 2(1) as input or 240V frequency locked to input
Mains neutral always left connected unswitched
Mains filter removes high frequency spike components (>10kHz 40dB)
Mains clamp removes high voltage transients (> 400V peaks @ 25Amps)
Low mains is boosted with Smart Boost of 20V (step up auto transformer)
Switch over time < 20mS ?
Inverter type Class D bridged HF
Output shape Sine wave output
Power 630W max
24V DC Lead Acid storage, 23V @ 33A load for 630W
Charging up to 2A @ 27.4V
Size 18" Long, 7" Wide, 9.5" Tall, Weight 40lb (18kg)
______________________ To open remove bottom 2 rear
REAR /~~~~~~~~~~~~~~~~~~~~~/\ FRONT screws & hinge top right up to
PANEL /=====================/ /3 CONTROLS unhook front. This leaves the
24V DC 3~~~~~~~~~~~~~~~~~~~~3\/ 3 & batteries & large transformer
Mains in 3 33 /3INDICATORS in the bottom & the PCB in the
IEC 3- - - - - - - - - - 33/ 3 top, connected by heavy leads.
Main out 3 33 / N.B. If you disconnect any of the
4x IEC 3 33/ leads mark exactly where they are
@DDDDDDDDDDDDDDDDDDDDA' from as several have the same colour!
REAR SWITCH OPTIONS For UK use
SW O 1 MEANING 0 <-> 1
1 q 10 % q 13 % Sensitivity #
2 230V 240V (+4%) Voltage #
3 1 Sec 30 Sec Initial Alarm wait #
4 2 Min 5 Min ?? Batt Dead Warning # (1 Seems to stop Options!)
Factory setting all 0s
OPERATION REAR PANEL
========= ZDDDDDDDDDDDDDDDDDDDDDDD?
Connections: 3o/232\o[4321] 3
3 ~~~~~ options 3
With the rear panel rocker ENABLE 3 3
switch set to (0) off.. 3 3
3 3
3ENABLE Mains MAINS IN3
3 SW (o) [IEC]3
Connect the IEC mains input & up 3 Trip 3
to 4 IEC mains loads. 3 3
3 3
3 3
9 pin RS232 connection can be made 3 3
with the right software. Connection 3 MAINS OUTPUTS 3
may override control buttons. 3[IEC] [IEC] [IEC] [IEC]3
@DDDDDDDDDDDDDDDDDDDDDDDY
---------------------------------------------------------------------------
From Lod PA3BNX@PI8SHB.#NBO.NLD.EU
General rs232 control lines with a UPC.
Power Failure CTS When mains fails.
Low battery DCD Accu almost empty.
Remote UPS shutdown DTR Pc asks to switch UPC off.
You can use UPS in Control Panel from WINNT and XP Pro
---------------------------------------------------------------------------
Power up: Switching the rear ENABLE to ON while pressing (1) test button
will immediately switch the power on if the mains is present or
not, & if mains is OK, a battery test with the LINE IN & BATTERY
bargraph LEDs flashing while the system readies itself for 5 secs
then the inverter test runs for 10 secs.
ZDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDD?
3 [] .z. [] 3
FRONT3 [] ( 1 ) [] 3
3 [] test [] 3
CONTROLS3 [] [] 3
3 [] [] [] .1. [] [] [] 3
3 [] On On ( 0 ) Smart Replace [] 3
3 Load Line Battery 'z' Boost Battery Battery3
@DDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDY
The green mains ON LINE LED will be flashing in test node (if
there is mains present), & the yellow ON BATTERY LED will be on.
After the 10 second test it will switch back to the mains if it
is OK, & the green mains ON LINE LED stays on & out goes the
yellow ON BATTERY LED.
If mains is just goes a bit to low the yellow SMART BOOST LED
lights after a second of inverter fill in power.
If the battery will not accept a charge the red REPLACE BATTERY
LED is lit up.
Bargraphs: The battery status bargraph indicates the battery voltage & is a
good indication of the condition.
The mains load bargraph lights up as the output loading is
increased to the maximum 630W load. (100W/0.4A per LED)
Alarms: The beeper sounds 4 beeps every 30 seconds after mains fails
(1/30 seconds initial delay option SW3).
And when the battery is too low (2min/5min warning) rapid pulse.
And if the load is excessive.
Mains Fail: As options set near instant changeover to synchronised inverter on
failure, e.g. under/over volts, under/over frequency.
Mains Reset: After 5 seconds of good mains, near instant change back to mains.
Power off: Just throw the rear ENABLE switch to off. This disconnects the
output & stops all battery drain.
Pressing the (0) button only works with no mains, otherwise you
get a briefly interrupts the output only (dirty changeover).
Charging: If just charging is needed then leave the rear ENABLE switch on
without pressing (1) test button.
As with most things with uProc control that can go wrong & a full power off
with battery disconnection may be needed in the worst case. (e.g. before you
buy a new set of batteries!) Then do a fresh power up on recharged batteries
with a 30% mains load to recalibrate the uProc's battery predictions during the
self test.
MODIFICATIONS
As it will be used on a 24V Bus /P for broadcast/PA work where there may be
mains or not, I have done these modifications.
1/ Moved rear Enable switch to front of case
2/ Added 24V External battery point (externally fused @ 40A)
3/ Added "Mains In" neon to tell there is external power. (double insulated)
4/ Added "Power Out" neon to confirm output. (double insulated)
5/ Added "On" LED fed via 470 from 12V reg tab
6/ Added "Charging" LED, NPN base to charging R via 1k, & 330R to LED +12V
5/ Blackened internal heatsinks [runs a bit cooler on heavy loads (no fan)]
ZDBDDDDDDDDDDDDDBD?
Enable313: x :3 3
Mains In 3o3: . . o . . :3y3On LED
Power Out3o3~~~~~~~~~~~~~3y3Charging LED
3 3 3 3
3 3 Operating 3 3
3-3 - - - - - - 3-3
3 3Instructions 3 3
3 3 3 3
3 3 3 3
@DADDDDDDDDDDDDDADY
See my buls on "META HF Melenium 810 UPS", "Lead Acid Batteries", "Constant
Voltage Transforemers" & "Mains Power Protector".
Why don't U send an interesting bul?
73 De John, G8MNY @ GB7CIP
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