SPSFCBK-18 [BEL]
High power quality (Power Factor and THD);型号: | SPSFCBK-18 |
厂家: | BEL FUSE INC. |
描述: | High power quality (Power Factor and THD) |
文件: | 总37页 (文件大小:2746K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Bel Power Solutions 6600 W stand-alone V2 Power Shelf with a main
12.6 VDC output and a 54 VDC auxiliary output is powered from three-
phase AC line and hosting three 3300 W (N + 1) hot-swappable single
phase V2 Power Modules and three battery back-up units (BBU).
At System level, this device will work in conjunction with BBU modules
(installed in the same shelf) for power back-up functions.
This product is used for IT Systems, for both reliable online & back-up
power functions, offering high performance and very high efficiency
and power quality.
High efficiency > 95.9 % @ 277 VAC, 50% load
High power quality (Power Factor and THD)
•
•
•
•
•
•
Redundant (2+1) output 6600 W / 12.6 VDC with active current sharing
Redundant (2+1) auxiliary output 600 W / 54 VDC
Houses 3 x 3300 W power modules
Houses 3 x 3600 W Lithium-Ion Battery Backup Modules supporting
a 90 s back-up capability in case of AC outage
Open compute (OCP) compliant
3 Phase 200 VAC – 277 VAC input to shelf
Hot-plug capable
•
•
•
•
•
Digital control for improved performance
RS485 communication interface for control, programming and
monitoring based on MODBUS V1.02
Status LED with fault signaling
•
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2
V2 Power Module & V2 Power Shelf
PRODUCT
ORDERING CODE
SPAFCBK-11G
3300 W Power Module
6600 W Power Shelf
Power Module Blank Panel
Battery Module Panel
SPSFCBK-18
SPSFCBK-12BP01
SPSFCBK-12BP02
The SPAFCBK-11G AC/DC power module is a MCU/DSP controlled, highly efficient front-end power supply. It incorporates
resonant-soft-switching technology to reduce component stresses, providing increased system reliability and very high power
conversion efficiency.
The PFC stage is digitally controlled using a state-of-the-art digital signal processing algorithm to guarantee best efficiency and
unity power factor over a wide operating range.
The main DC/DC stage (12.6 V / 3300 W) uses soft switching resonant techniques in conjunction with synchronous rectification. An
active OR-ing device on the output ensures no reverse load current and renders the supply ideally suited for operation in redundant
power systems.
The auxiliary DC/DC stage (54 VDC / 300 W) uses a soft switching resonant topology and is also protected with an active OR-ing
device for maximum reliability.
The DC/DC converter from the battery input (3600 W) provides power to the internal high voltage bus and allows the outputs to
continue up to 90 s during AC outage. The battery charger stage (52.5 V / 270 W) re-charges the battery backup unit (BBU).
Status information is provided with a front-panel LED. The RS485 bus allows full monitoring of the supply, including input and output
voltage, current, power, and internal temperatures. The same RS485 bus supports the bootloader to allow field update of the
firmware in the MCU and the DSPs.
The supply is cooled by a regulated fan and the air direction matches regular data center rack configurations. The fan speed is
adjusted automatically depending on the supply temperature.
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V2 Power Module & V2 Power Shelf
Figure 1. SPAFCBK-11G Block Diagram
The SPSFCBK-18 power shelf houses 3 power supply units (PSU) and 3 battery back-up units (BBUs) and maximizes power
availability in demanding server, network, and other high availability applications.
The main 12.6 VDC output offers 6600 W power in 2+1 redundant operation on a single output busbar on the back side of the shelf,
which is directly connected to the output busbar of all PSUs. Power balancing between the units is ensured by an active current
share scheme.
The auxiliary 54 VDC output offer 600 W power in 2+1 redundant operation on a single output connector on the rear side of the shelf.
A wiring harness connects the PSU to the BBU and the power shelf. Each PSU has its own BBU and there is no direct interconnection
between the BBUs.
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© 2018 Bel Power Solutions
BCD.00343_010
4
V2 Power Module & V2 Power Shelf
Figure 2. SPSFCBK-18 Block Diagram
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V2 Power Module & V2 Power Shelf
In case some of the PSU or BBU are not populated in the shelf, the blank panels SPSFCBK-12BP01 (PSU) and SPSFCBK-12BP01
(BBU) can be assembled to cover the slots and avoid reverse airflow.
Figure 3. Shelf with Blanking Panels
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V2 Power Module & V2 Power Shelf
Stresses in excess of the absolute maximum ratings may cause performance degradation, adversely affect long-term
reliability, and cause permanent damage to the supply.
PARAMETER
Vi maxc Maximum Input Voltage
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
Continuous
305
VAC
General Condition: TA = 0… 45 °C unless otherwise noted. Load condition definition: 100% load corresponds to the following,
and any fraction of it is scaling down all outputs simultaneously.
(i)
Main 12.6 V: 3300 W + Auxiliary 54 V: 300 W + Battery Charger 52.5 V: 270 W in AC operation
(ii) Main 12.6 V: 3300 W + Auxiliary 54 V: 300 W in DC operation
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
AC Input
Viac nom
Viac
Nominal Input Voltage
Input Voltage Range
Input Current
200
180
277
VAC
VAC
A
Normal operating
305
Iiac max
Iiac inrush
fi
@ steady state, 100% Load, Vin = 180 VAC
@ cold start, Vin = 290 VAC, TA = 35°C
22.8
Inrush Current Limitation
Input Frequency
30
63
AP
40
50/60
0.966
0.981
0.996
0.999
Hz
>15% of max load, 277 VAC
20% Load, 277 VAC, 60 Hz
50% Load, 277 VAC, 60 Hz
100% Load, 277 VAC, 60 Hz
0.95
W/VA
W/VA
W/VA
W/VA
PF
Power Factor
Total Harmonic
Distortion
THD
>15% of max load, 277 VAC, 60 Hz
7.4
10
%
Viac on
Viac off
Turn-on Input Voltage1
Turn-off Input Voltage1
Ramping up
171
180
VAC
VAC
%
Ramping down
165.5
172.5
VIN = 277 VAC, 10% load
VIN = 277 VAC, 20% load
VIN = 277 VAC, 50% load
VIN = 277 VAC, 100% load
VIN = 277 VAC, load 3300 W / 12.6 V, 300 W / 54 V
VIN = 277 VAC, 100% load
VIN = 277 VAC, 100% load
@ 105 °C
93.81
95.28
95.96
94.70
%
Efficiency2
Η
%
%
20
ms
ms
ms
VDC
TV1 holdup
Hold-up Time V1
24
20
TVSB holdup
Hold-up Time VAUX
BULK Capacitors Rating
Internal Bias Supply
Startup
500
100
Von bias
Correspondent to 140 VDC on the bulk capacitors
94
VAC
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V2 Power Module & V2 Power Shelf
DC Input (from BBU)
Vidc nom
pVidc
Nominal Input Voltage
DC Input Voltage Range
Input Current
33.8
32
52.5
125
VDC
VDC
A
53
Iidc max
@ steady state, Vin = 33.8 VDC
1
2
The Front-End is provided with a minimum hysteresis of 8 V during turn-on and turn-off within the ranges
Efficiency measured with Fan supplied externally and only main output loaded.
The AC-DC power supply exhibits an X-capacitance of only 5.2 µF resulting in only a low and short peak current
when the supply is connected to the mains. The internal bulk capacitor will be charged through an NTC which will
limit the inrush current.
Figure 4. Inrush current, Vin = 290 VAC, 90°
CH1: Vin (500 V/div), CH2: Iin (10 A/div)
Power factor correction (PFC) is achieved by controlling the input current waveform synchronously with the input
voltage. A fully digital controller is implemented giving outstanding power factor results over a wide input voltage
and load ranges. The input current will follow the shape of the input voltage. If for instance the input voltage has a
trapezoidal waveform, then the current will also show a trapezoidal waveform.
Figure 5. Power factor vs. Load current
Figure 6. THD vs. Load current
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V2 Power Module & V2 Power Shelf
High efficiency (see Figure 7) is achieved by using state-of-the-art silicon power devices in conjunction with soft-
transition topologies minimizing switching losses and a full digital control scheme. Synchronous rectifiers on the
output reduce the losses in the high current output path. The speed of the fan is digitally controlled to keep all
components at an optimal operating temperature regardless of the ambient temperature and load conditions.
Setup: Single unit in Shelf Slot1, VAC and V1 measurement at PCB level at the connector. Fan externally supplied.
Only main output loaded.
97
96
95
94
93
92
91
90
0
500
1000
1500
2000
2500
3000
3500
Po (W)
Figure 7. Efficiency vs. Load current in AC Operation; Vin = 277 VAC
The internal high voltage bulk capacitors which are charged through the PFC stage and in case of AC outage through
the current feed converter from the BBU have a voltage rating of 500 VDC.
The internal bias supply which is powering the control and communication circuit turns on at a AC input voltage level
Von bias. This is the minimum voltage required to be able to communicate to the unit.
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V2 Power Module & V2 Power Shelf
General Condition: TA = 0…45 °C unless otherwise noted.
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
Main Output V1 (12.6 V)
V1 nom
V1 set
Nominal Output Voltage
12.6
VDC
@ 10% loading
Output Setpoint Accuracy
Total Static Regulation
-1
-1
+1
+1
%V1 nom
%V1
Vi min to Vi max, 0 to 100% I1 nom (excl. load
regulation)
dV1 tot
P1 nom
I1 nom
Output Power
Output Current
3300
265
W
ADC
Vi nom, 0 to 100% I1 nom, incl. output connector
drop
dV1 load
Load Regulation
215
mV
dV1 line ac
dV1 line dc
dV1 lt
AC Line Regulation
DC Line Regulation
Load Transient Response
Recovery Time
Viac min to Viac max
-30
-30
0
0
30
30
0.6
5
mV
mV
VDC
ms
ms
s
Vidc min to Vidc max
0.5
1
I1 = 50 -> 100% I1 nom, Cext = 0 mF,
dI1/dt = 1A/µs, recovery within 1% of V1 nom
Trec
tV1 rise
Output Voltage Rise Time
Output turn-on time
Capacitive Loading
V1 = 10…90% V1 nom, Cext = 0
2
20
2
tV1 on
under any conditions with Vin > 200 VAC
CV1 load
0
66
mF
Auxiliary Output VAUX (54 V)
VAUX nom
dVAUX tot
PAUX nom
IAUX nom
Output Voltage
@ 10% loading
54
VDC
Vi min to Vi max, 0 to 100% IAUX nom
(excl. Load regulation)
Total Static Regulation
-1
0
+1
%VBC
Output Power
Output Current
300
1.9
W
A
5.7
Vi nom, 0 to 100% IAUX nom, incl. output connector
drop
dVAUX load
Load Regulation
V
dVAUX line ac
dVAUX line dc
dVAUX lt
AC Line Regulation
DC Line Regulation
Load Transient Response
Recovery Time
Viac min to Viac max
Vidc min to Vidc max
-50
-50
0
0
50
50
mV
mV
VDC
ms
1.35
IAUX = 50 -> 100% IAUX nom, Cext = 0 mF,
dIAUX/dt = 1A/µs, recovery within 1% of VAUX nom
trec
50
70
tVAUX rise
Output Voltage Rise Time
V1 = 10…90% V1 nom, Cext = 0 mF
100
3.3
ms
under any conditions with Vin > 200 VAC
from V1 in regulation to VAUX in regulation
Output turn-on
260
ms
mF
CVAUX load
Capacitive Loading
0
Battery Charger Output VBC (52.5 V)
VBC nom
dVBC tot
PBC nom
Output Voltage
@ 10% loading
52.5
270
VCD
%VBC
W
Total Static Regulation
Output Power
Vi min to Vi max, 0 to 100% IBC nom
-0.5
+0.5
Output Current
0
5
A
Vi nom, 0 to 100% IBC nom, incl. output connector
drop
dVBC load
Load Regulation
170
-40
220
282
mV
dVBC line
tVBC rise
AC Line Regulation
Viac min to Viac max
0
40
mV
ms
Output Voltage Rise Time
V1 = 10…90% VBC nom
80
150
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V2 Power Module & V2 Power Shelf
Figure 8. Turn-On AC Line 277VAC, full load (500ms/div)
CH1: Vin (500V/div) CH2: V1 (2V/div) CH3: VAUX (10V/div)
CH4: VBC (10V/div)
Figure 9. Rise time V1 at 277VAC, full load (500µs/div)
CH2: V1 (2V/div)
Figure 11. Rise time VBC at 277AC, 2A load (50ms/div)
CH4: VBC (10V/div)
Figure 10. Rise time VAUX at 277VAC, full load (20ms/div)
CH3: VAUX (10V/div)
Figure 12. Load transient V1, 133A to 265A, 1A/µs (5ms/div)
CH1: I1 (50A/div) CH2: V1 (500mV/div)
Figure 13. Load transient VAUX, 2.8A to 5.7A (100ms/div)
CH1: IAUX (2A/div) CH2: VAUX (1V/div)
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V2 Power Module & V2 Power Shelf
OUTPUT ISOLATION
Main, auxiliary and battery charger output and all signals are isolated from the chassis and protective earth
connection. However, the applied voltage between any of these voltages and chassis must not exceed 100 Vpeak
to prevent any damage to the supply.
The RS485 communication lines and shelf/rack addresses (RS485_D / RS485_DN / ADD3…5) are additionally
isolated from all others.
Internal to the module the main output ground (GR1, also connected directly to FAN_SUPPLY_R in the module), the
auxiliary ground (AUX_54V_R) and the battery charger ground (BAT_R) are interconnected through 10 Ω resistors to
prevent any circulating current within the supply. The signal ground (GR5) is connected with 0.33 Ω to the main
output ground.
Each of the power modules is separately connected to its Battery Backup unit (BBU). The BBU and PSU are designed to
support maximum 90 s of full load back-up time in case of an outage.
The battery is being re-charged by the 270 W (5 A /52.5 V) battery charger circuit in the PSU.
The BBU has 8 digital lines to the PSU with which it flags errors and requests operations (see also section 3.7).
Additionally, there is also an I2C communication between the PSU and the BBU which is implemented to allow the user to
access some of the battery registers via the RS485 interface.
BACKUP BEHAVIOR
If the AC input voltage is falling below Viac off or if the frequency is outside the valid operating range fi, the PSU is
changing to DC operation and taking the power from the BBU.
The power module implements a soft startup when transitioning to battery backup mode, limiting the current
overshoot as the bulk voltage is ramped back to a nominal level. No deviation occurs on the main output voltage.
Figure 14. Backup Transition CH1: V1 (2V/div) CH2: Ibatt (20A/div) Ch3: VBULK (20V/div) Ch4: VAC(200V/div)
After 45 s in DC operation the PWR_FAIL signal is set. After 90 s without AC return the PSU is shutting down and
only is restarting with a valid AC voltage restored.
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V2 Power Module & V2 Power Shelf
If a valid AC voltage is re-applied after less than 90 s, the shelf is transitioning back to AC operation without any
deviation at the output. The time between AC voltage present and the transition from DC to AC operation is random
from one shelf to the other to reduce the stress on the AC supply.
BATTERY CHARGER BEHAVIOR
The BBU decides on its own if it needs to be re-charged. Charging is requested by setting the BAT_CRG_EN flag.
The PSU reacts on this flag by starting the 52.5 V battery charger with a controlled current ramp up.
If the battery charger is running for more than 5 consecutive hours it is shut down and a failure is flagged.
BBU STATE OF HEALTH CHECK
The BBU will determine internally with a random logic if it needs to be tested, and requests with the BAT_SOH_CHK
signal a test discharge.
The power modules in the shelf decide based on their own and the other modules state, if they can do such a
discharge. A state of health test discharge is only done if:
-
-
-
-
-
-
All 3 PSUs and BBUs are installed and communication is available
No other BBUs self-check is ongoing
No PSUs or BBUs failed
No BBU being charged at the moment
All PSUs in AC operation
PSU load is >500 W for at least 1 consecutive minute
The BBU will determine if the test was valid and decide if it has reached the end of life and set the BAT_EOL signal
if required.
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V2 Power Module & V2 Power Shelf
There are various protection features implemented in the unit, which will help to protect the unit, BBU and system and flag
the failure. The bit position of the flagged error through the RS485 communication can be found in the communication
manual BCA.00072 and is referenced here as “StatusBitName”.”FlagName”.
RS485 FLAG
PROTECTION
PARAMETER / DESCRIPTION
MIN
NOM
MAX
UNIT
AC Input
F
PFC.AC_FUSE_FAIL
PFC.UVP_ERROR
Input fuse (L)
Not user accessible, fast
AC UV Threshold
25
A
Viac off
Viac on
tVac UV SW
See 3.2
See 3.2
AC Input Under
Voltage Protection
AC UV Reset Threshold
5
ms
DC Input
Over Voltage VBAT
Protection
Vidc OV SW
CF.BATT_OVP_ERROR
CF.BATT_UVP_ERROR
56
VDC
Vidc UV SW
Vidc UV HW
Software UV Threshold
Hardware UV Threshold
31.85
28
VDC
VDC
Under Voltage VBAT
Protection
BBU
BBU.BATTERY_PROTECTION
BBU.BATTERY_SLEEP
See BBU datasheet
See BBU datasheet
See BBU datasheet
See BBU datasheet
See BBU datasheet
BBU.BATTERY_STOP_DCRG
BBU.BATTERY_END_OF_LIFE
BBU.BATTERY_FAILURE
Main Output V1 (12.6 V)
Fast Over Voltage V1
Protection, Latch-Off
Type
Regulation Current
Limitation, Constant-
Current Type
Over Current
Limitation, Latch-Off
Type
V1 OV HW
Fast OV Threshold V1
14.2
274
14.6
286
15.3
1
VDC
ms
LLC.OVP_HW_ERROR
tV1 OV HW
Time from OV applied to Latch-Off
IV1 CL REG
No Flag
Maximum regulated current
Slow OC Limit V1
Time from OC detected to Latch-
Off
ADC
IV1 OC SW
280
2
294
ADC
s
MISC.12V_OCP_ERROR
tV1 OC SW latch
Fast Over Current
Limitation, Shut-down
Type
Under Voltage V1
Protection, Latch-Off
Type
IV1 OC HW
tV1 OC HW restart
V1 UV
Fast OC Limit
350
ADC
ms
V
No Flag
Time from OC detected to Restart
UV Threshold V1
4
10
2
MISC.12V_UVP_ERROR
tV1 UV trip
Time from UV applied to Latch-Off
s
Repeated short overload on the
main output
If V1 <8V and frequency below
min. level
LLC.ARCING_ERROR
LLC:HOLD_UP_ERROR
LLC.DCDC_ERROR
Arcing protection
Hold-up error
10
ms
General V1 converter
error
Auxiliary Output VAUX (54 V)
Slow Over Voltage
VAUX Protection,
Latch-Off Type
Fast Over Voltage
VAUX Protection,
Latch-Off Type
Current regulation
max VAUX
VAUX OV SW
Slow OV Threshold VAUX
56
5
VDC
ms
AUX.SW_OVP_ERROR
tVAUX OV SW
VAUX OV HW
tVAUX OV HW
Time from OV applied to Latch-Off
Fast OV Threshold VAUX
58.5
59
59.5
1
VDC
ms
AUX.HW_OVP_ERROR
No Flag
Time from OV applied to Latch-Off
Regulation Current Limitation,
Constant-Current Type
UV Threshold VAUX
Time from Under Voltage applied
to Shut-down
Time from Under Voltage applied
to Restart
IVAUX CL REG
VAUX UV
6.4
40
10
ADC
V
tVAUX UV trip
Under Voltage VAUX
Protection, Latch-Off
Type
ms
AUX_SW_UVP_ERROR
tVAUX UV restart
tVAUX UV latch
3
2
s
s
Time from Restart to Latch-Off
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V2 Power Module & V2 Power Shelf
Battery Charger Output VBC (52.5 V)
Slow Over Voltage
VBC Protection, Latch-
Off Type
Fast Over Voltage VBC
Protection, Latch-Off
Type
VBC OV SW
Slow OV Threshold VBC
54
5
VDC
ms
BC.SW_OVP_ERROR
tVBC OV SW
Time from OV applied to Latch-Off
Fast OV Threshold VBC
VBC OV HW
56.5
57
57.5
1
VDC
ms
BC.HW_OVP_ERROR
tVBC OV HW
Time from OV applied to Latch-Off
Current regulation
max VBC
Regulation Current Limitation,
Constant-Current Type
UV Threshold VBC
Time from UV applied to Shut-
down
Time from UV applied to Restart
Regulation Limits
IVBC CL REG
VBC UV
No Flag
5
ADC
V
13
10
4.2
Under Voltage VBC
Protection, Shut-
down Type
tVBC UV trip
BC.SW_UVP_ERROR
ms
tVBC UV restart
VBC out of reg
s
Out of regulation VBC If
IBC <300mA and
outside these limits,
Latch-Off Type
Timeout error, Latch-
Off Type
51.45
53.55
V
BC.V_OUT_ERROR
Time from out of regulation
detected to Latch-Off
tVBC out of reg
tVBC timeout
2
5
s
Time from Battery Charger started
to Latch-Off
BC.TIMEOUT_ERROR
h
Other Protections
TEMP.***_ERROR
Over Temperature protection:
See also section 3.8.2
Fan speed error:
see also section 3.8.2
Wrong / mismatching Firmware
programmed on PSU
F1-F3 fatal internal communication
error
OTP, Latch-Off Type
Fan Error, Latch-Off
Type
FAN.RPM_ERROR
COM.F*_FW_ERROR
COM.F*_COM_ERROR
COM.CAN_COM_ERROR
FW Error
Communication error
Communication error
CAN communication problem in
the shelf
LATCH-OFF AND CLEARING
If an error on the main 12.6 V output occurs which is latching off this converter, it will also shut down and latch the
auxiliary and battery charger converter.
If the auxiliary or the battery charger converter fail with a latching error, they will not shut down any of the other
converters.
The latching faults can be cleared/unlocked by disconnecting the supply from the AC mains for >2 s with a shutdown
of the main output (not going into backup mode), or by toggling the PS_KILL input.
INPUT FUSE
Fast-acting 25 A input fuse (6.3 x 32 mm) in series with the L-line inside the power supply protects against severe
defects. The fuse is not accessible from the outside and is therefore not a serviceable part.
AC INPUT UNDER-VOLTAGE
If the sinusoidal input voltage stays below the input undervoltage lockout threshold Vi on or falls below Vi off during
operation, the supply will be inhibited. Once the input voltage returns within the normal operating range, the supply
will return to normal operation again.
If a good battery back-up unit is present, the unit can keep on operating for up to 90 s in case of AC outage. More
details see in Section 3.4.
DC INPUT UNDER-VOLTAGE
There are several protection levels for the DC input under voltage. The BBU module will begin to protect itself at
33.8 V. Below this level, the PSU will protect at the Software under voltage threshold of 31.85 V, and this undervoltage
is ignored during the first 15 seconds of backup to account for temporary dips during current ramp up. Finally, below
this level is the hardware under voltage at 28 V.
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V2 Power Module & V2 Power Shelf
OVERVOLTAGE PROTECTION
The SPAFCBK-11G front-end provides a fixed threshold overvoltage (OV) protection implemented with a HW
comparator for the main, the auxiliary and the battery charger output.
Once an OV condition has been triggered, the supply will shut down the converter.
The auxiliary and battery charger output have in addition to the HW overvoltage protection a software overvoltage
detection implemented.
UNDERVOLTAGE DETECTION
All three outputs have a software under voltage protection implemented.
If the main output voltage falls below the under voltage level V1 UV for a time > tV1 UV trip it will latch-off.
If the auxiliary output falls below the under voltage limit VAUX UV for a time > tVAUX UV trip the control circuit will attempt
to restart the converter, if voltage is not restored before tVAUX UV latch the output will latch-off.
If the battery charger falls below the under voltage limit VBC UV for a time > tVBC UV trip the control circuit will attempt to
restart the converter, and remain on indefinitely.
OUT OF REGULATION DETECTION BATTERY CHARGER
If the battery charger current is less than 300 mA (which indicates the battery is nearly charged), the voltage is
monitored to stay inside the regulation bandwidth. If the voltage is outside this band for more than tVBC out of reg the
control circuit will shut down the battery charger output and latch off.
CURRENT LIMITATION
The main output exhibits a substantially rectangular output characteristic controlled by a software feedback loop. If
the output current exceeds IV1 CL REG it will reduce the output voltage in order to keep the output current constant. If
the output current is higher than IV1 OC SW for more than tV1 OC SW latch the output will latch off.
A second current limitation implemented as a fast hardware detection circuit will immediately switch off the main
output if the output current increases beyond the peak current trip point, occurring mainly if a short circuit is applied
to the output voltage. The supply will re-start after tV1 OC HW restart with a soft start.
Figure 15. Current Limitation on V1
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V2 Power Module & V2 Power Shelf
The auxiliary output exhibits a substantially rectangular output characteristic, controlled by a hardware feedback
loop. If the output current exceeds IVAUX CL REG it will reduce the output voltage in order to keep the output current
constant.
Running in current limitation causes the output voltage to fall, this will trigger the under voltage protection, see also
Undervoltage Detection.
Figure 16. Current Limitation on Vaux
The battery charger output exhibits a substantially rectangular output characteristic, controlled by a hardware
feedback loop. If the output current exceeds IVBC CL REG it will reduce the output voltage in order to keep the output
current constant.
Running in current limitation causes the output voltage to fall, this will trigger the under voltage protection, see also
Undervoltage Detection.
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V2 Power Module & V2 Power Shelf
Figure 17. Current Limitation on Vbc
The power supply operating parameters can be accessed through the RS485 interface. For more details refer to document
BCA.00072 (SPAFCBK-11G RS485 Communication Manual)
PARAMETER
Viac mon AC Input RMS Voltage
DESCRIPTION / CONDITION
Viac MIN ≤ Viac ≤ Viac MAX
Iiac > 5 Arms
MIN
-2
NOM
MAX
+2
UNIT
VAC
%
-5
+5
Iiac mon
AC Input RMS Current
AC True Input Power
Iiac ≤ 5 Arms
-0.25
-5
+0.25
+5
Arms
%
Piac > 900 W
Piac mon
Piac < 900 W
-45
-2
+45
+2
W
Vidc mon
Vbat mon
DC Input Voltage
Vidc MIN ≤ Vidc ≤ Vidc MAX
Vidc MIN ≤ Vbat ≤ Vidc MAX
Iidc > 40A
VAC
%
Battery Sense Voltage
-0.5
-8
+0.5
+8
%
Iidc mon
DC Input Current
Iidc ≤ 40A
-3.2
-1
+3.2
+1
Arms
%
V1 mon
I1 mon
V1 Voltage
V1 Current
VAUX Voltage
V1 MIN ≤ V1≤ V1 MAX
-2.65
-1
+2.65
+1
ADC
%
VAUX mon
VAUX MIN ≤ VAUX≤ VAUX MAX
IAUX > 2 A
-6
+6
%
IAUX mon
VBC mon
IBC mon
VAUX Current
VBC Voltage
IBC Current
IAUX ≤ 2 A
-0.12
-0.5
-5
+0.12
+0.5
+5
A
I
BC mon ≤ 1A1
%
IBC > 2 A
BC ≤ 2 A
%
I
-0.1
-3
+0.1
+3
A
Pi > 900 W
%
Po mon
Total Output Power
Inlet Temperature
Pi < 900 W
-27
-5
+27
+7
W
TInput mon
AC operation, TA MIN ≤ TA ≤ TA MAX
°C
1
The voltage measurement is before the Or-ing and does therefore not include the passive droop on the Or-ing and the PCB.
Therefore, the readback is valid for the external voltage only valid for low current.
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V2 Power Module & V2 Power Shelf
PARAMETER
DESCRIPTION / CONDITION
CRITERION
Input Signals from Shelf
To flag the PSU if it is inserted in the shelf
Recessed pin (last make / first break)
PS_KILL
Pulled to the ground inside the Shelf
Hard wired in the shelf.
Address pins for RS485 PSU address for the location
of the PSU in the shelf;
See also section SIGNALLING AND
CONTROL5.4 and 3.8.1 and
ADD1...2
Communication Manual BCA.00072
Set by the user via a shelf input connector.
See also section 5.4 and communication
manual BCA.00072
Address pins for RS485 PSU address for the location
of the shelf inside the rack;
Referred to RS485 isolated ground
ADD3…5
Input Signals from BBU
BAT_FAIL
Signal flagging a BBU failure
BAT_STOP_DCRG
BAT_SLEEP
Signal commanding to stop discharging the Battery
Signal flagging missing 12 V in the BBU
Battery End of Life signal
BAT_EOL
Battery protection signal to HW shut down current
feed circuit
BAT_PROT
BAT_SOH_CHK
BAT_CRG_EN
Battery requesting state of health check
Battery charger enable signal
To flag the PSU if a BBU is present in the shelf
Recessed pin (last make / first break)
BAT_KILL
Pulled to the ground inside the BBU
BAT_VSENSE /
BAT_VSENSE_R
Battery voltage sense signals
Output Signals to Shelf
Signal to flag potential loss of power due to backup
timeout;
Active low, normally high open collector signal
This signal is pulled low if the PSU is 45 s in
backup and AC is not yet returned
See also section 3.4
PWR_FAIL
This signal is pulled low if at least one PSU
or BBU in the shelf has failed, is not
operational or is not present.
The signal is not pulled low in case of a
BAT_PROT or BAT_STOP_DCRG event.
See also section 5.4.
Signal to flag loss of redundancy;
Active low, normally high open collector signal
RED_LOST
Bidirectional Signals to Shelf
SYNC1-3
Reserved to synchronize PSU turn-on, turn-off and
transition
See also section 5.4.
See also section 5.4.
ISHARE
Current share line
RS485 communication lines for monitoring of all
PSUs;
RS485_D / RS485_DN
See also 3.8.1.
Isolated from other outputs
CAN communication lines for inter- PSU
communication in the shelf
CAN_H / CAN_L
Output Signals to BBU
To flag the BBU if a PSU is present in the shelf
Recessed pin (last make / first break)
BAT_NSRT
Pulled to the signal ground inside the PSU
Bidirectional Signals to Shelf
BAT_I2C_SDA/
BAT_I2C_SCL
I2C communication to the BBU
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V2 Power Module & V2 Power Shelf
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
PS_KILL / BAT_KILL input
VIL
Input Low Level Voltage
PSU / BBU is inserted
PSU / BBU is removed
VI = -0.2 V to +3.5 V
-0.2
2.2
-1
0.8
3.5
1
V
V
VIH
Input High Level Voltage
IIL,H
Maximum Input Sink or Source Current
mA
kΩ
Rpull up
Internal Pull up Resistor to internal 3.3 V
10
Maximum external Pull down
RLOW
RHIGH
1
kΩ
kΩ
Resistance to GND to obtain Low Level
Minimum external Pull down Resistance
to GND to obtain High Level
50
ADD1…5 inputs
VIL
Input Low Level Voltage
-0.2
2.2
-1
0.8
3.5
1
V
V
VIH
Input High Level Voltage
IIL,H
Maximum Input Sink or Source Current
Internal Pull up Resistor to internal 3.3V
VI = -0.2 V to +3.5 V
mA
kΩ
Rpull up
10
Maximum external Pull down
RLOW
RHIGH
1
kΩ
kΩ
Resistance to GND to obtain Low Level
Minimum external Pull down Resistance
to GND to obtain High Level
50
BAT_FAIL / BAT_STOP_DCRG / BAT_SLEEP / BAT_EOL / BAT_PROT / BAT_SOH_CHK / BAT_CRG_EN inputs
VIL
Input Low Level Voltage
-0.2
2.2
-1
0.8
3.5
1
V
V
VIH
Input High Level Voltage
IIL,H
Maximum Input Sink or Source Current
VI = -0.2 V to +3.5 V
mA
kΩ
Rpull up
Internal Pull up Resistor to internal 3.3 V
10
Maximum external Pull down
RLOW
RHIGH
1
kΩ
kΩ
Resistance to GND to obtain Low Level
Minimum external Pull down Resistance
to GND to obtain High Level
50
PWR_FAIL / RED_LOST outputs
VOL
Output Low Level Voltage
External pull-up voltage
IIsink < 4 mA
-0.2
0.4
20
V
V
Vpull up
Recommended external pullup resistor
at Vpull up =12 V
Rpull up
IOL
10
kΩ
Maximum Sink Current
VO < 0.4 V
4
mA
Table 1. Signal Electrical Characteristics
All digital input signals (all but BAT_VSENSE(_R)) have inside the PSU protection diodes added which limit the voltage
to the ground on the lower side and to the internal 3.3 V on the higher side.
The PWR_FAIL and RED_LOST output signals have inside the PSU 15 V Zener diodes added versus ground.
The BBU provide sense lines to more accurate monitor the battery voltage excluding the voltage drop on load wires
in both positive and negative path.
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The SPAFCBK-11G front-end has an active current share scheme implemented for V1. All the ISHARE current share
pins need to be interconnected in order to activate the sharing function. If a supply has an internal fault or is not
turned on, it will disconnect its ISHARE pin from the share bus. This will prevent dragging the output down (or up) in
such cases.
The current share function uses a digital bi-directional data exchange on a recessive bus configuration to transmit
and receive current share information. The controller implements a Master/Slave current share function. The power
supply providing the largest current among the group is automatically the Master. The other supplies will operate as
Slaves and increase their output current to a value close to the Master by slightly increasing their output voltage.
The voltage increase is limited to +250 mV.
The Auxiliary output uses a passive current share method (droop output voltage characteristic).
PSKILL input is an active-low recessed pin in the connector and is used to shut down the circuits as soon as the
power supply is being pulled out. This pin is connected to ground in the power shelf.
Figure 18. PS_KILL connection
PSKILL input is an active-low recessed pin in the connector and is used to shut down the circuits as soon as the
power supply is being pulled out. This pin is connected to ground in the power shelf.
Figure 19. BAT_KILL connection
The BAT_NSRT output is wired inside the PSU to ground. This is a recessed pin and does indicate that there is a
power supply present.
Figure 20. BAT_NSRT connection
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V2 Power Module & V2 Power Shelf
The PWR_FAIL signal indicates that the power supply is in risk of losing the output power in backup mode. It is
pulled low after 45s in backup operation if AC is not returned.
It is an open collector signal which needs to be pulled up to an external voltage. (See limits in Table 1.)
Figure 21. PWR_FAIL connection
The RED_LOST signal indicates that the shelf is not operating in redundancy anymore. It is pulled low if at least one
PSU or BBU in the shelf is failed, not operational or not present. The signal is not pulled low in case of a BAT_PROT
or BAT_STOP_DCRG event.
It is an open collector signal which needs to be pulled up to an external voltage. (See limits in Table 1.)
Figure 22. RED_LOST connection
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V2 Power Module & V2 Power Shelf
The power module has two front LEDs showing the status of the supply. The LED PWR OK / BKP LED is bi-colored:
green and amber, and indicates AC and DC power presence. The red FAIL LED indicates warning or fault conditions.
Table 2 lists the different LED status.
LED
LED STATUS
CONDITION
Off
Unit is off or 12.6 VDC output is out of regulation.
When a valid AC input is applied, 12.6 VDC output is in regulation,
and BBU is not installed or not ready for use. OFF otherwise
When a valid AC input is applied, 12.6Vdc output is in regulation, and
a BBU is installed and ready for use. OFF otherwise
Amber solid
Green solid
PWR OK LED / BKP LED
Amber/Off blinking
Green/Off blinking
Off
During backup phase (90 second timeout).
FW upgrade in progress
General power module failure (FAN failure is included. OFF otherwise
If the 54Vdc auxiliary or the BBU step-up or step-down battery
charger converter fails, the Red LED will turn on and the Fail signal will
be latched but the main converter (LLC) will still provide 12.6Vdc to
the busbars.
FAIL
Red solid
General power supply failure
• The output 12V before the OR-ing MOS goes out of regulation
• Fan failure or fan low speeds (5 sec delay on persistency)
• Over current protection (2 sec delay on persistency)
• Over temperature protection (2 sec delay on persistency)
• Over voltage protection
• AC fuse failure (5 to 30 sec delay)
Table 2. LED Status Indication
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V2 Power Module & V2 Power Shelf
The SPAFCBK-11G front-end is a communication slave device only; it never initiates messages on the
RS485/MODBUS by itself. Communication to the MCU will be possible as long as the input AC voltage is provided
and above Von bias
.
For more information about the communication, see Communication Manual BCA.00072.
To achieve best cooling results sufficient airflow through the supply must be ensured. Do not block or obstruct the
airflow at the rear of the supply by placing large objects directly at the output connector. The SPAFCBK-11G is
provided with a front to rear airflow, which means the air enters through the front panel of the supply and leaves at
the connector side. The SPAFCBK-11G supply has been designed for horizontal operation.
The fan inside of the supply is controlled by a microprocessor. The RPM of the fan is adjusted to ensure optimal
supply cooling and is a function of the inlet, outlet and critical component temperatures. There is no direct
dependency on the delivered power.
The SPAFCBK-11G provides access via RS485 to the measured temperatures of in total 8 sensors within the
power supply, see Table 3. The microprocessor is monitoring these temperatures and increases the fan speed
based on those. If a critical level is reached, the temperature warning bit is set. If temperatures continue to rise
above the shut down threshold all outputs will be disabled. At the same time the warning or fault condition is
signaled accordingly by a LED (see LED signaling in Table 2).
TEMPERATURE
SENSOR
RESTART
WARNING
SHUT DOWN
DESCRIPTION / CONDITION
THRESHOLD THRESHOLD THRESHOLD
Sensor located on main board close to front panel
of power supply
Inlet air temperature
50 °C
55 °C
60 °C
Sensor located on main board close to connector
end of the power supply
Outlet air temperature
PFC heat sink
100 °C
100 °C
95 °C
105 °C
105 °C
100 °C
110 °C
110 °C
105 °C
Sensor located close to the PFC heat sink
Sensor located close to one of the V1 primary heat
sinks
V1 primary heat sink
Sensor located close to V1 synchronous rectifier
devices
V1 synchronous rectifier
110 °C
115 °C
120 °C
V1 OR-ing elements
Sensor located close to V1 OR-ing devices
Sensor located close to VBC secondary heat sink
Sensor located close to current feed heat sink
110 °C
95 °C
115 °C
100 °C
115 °C
120 °C
105 °C
120 °C
VBC secondary heat sink
Current feed heat sink
110 °C
Table 3. Temperature sensor location and thresholds
Figure 23. Airflow direction PSU
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V2 Power Module & V2 Power Shelf
PARAMETER
DESCRIPTION / CONDITION
IEC / EN 61000-4-2, ±8 kV
IEC / EN 61000-4-2, ±15 kV
CRITERION
ESD Contact Discharge
ESD Air Discharge
A
A
EFT / Burst
Surge
IEC / EN 61000-4-4, Level 4
A
A
IEC / EN 61000-4-5
Differential Mode 2 kV (Line to Neutral)
Common Mode 4 kV (Line/Neutral to Earth)
PARAMETER
DESCRIPTION / CONDITION
FCC Part 15 / EN 55022/ CISPR 22
FCC Part 15 / EN 55022/ CISPR 22
CRITERION
Class B
Conducted Emission
Radiated Emission
Class B
IEC 61000-3-2
Vi = 277 VAC / 60 Hz & 230 VAC / 50Hz, 100% load
Harmonic Current Emissions
Class A
Maximum electric strength testing is performed in the factory according to IEC/EN 60950 and UL 60950. Input-to-output
electric strength tests should not be repeated in the field. Bel Power Solutions will not honor any warranty claims resulting
from electric strength field tests.
PARAMETER
DESCRIPTION / CONDITION
NOTE
UL 60950-1 2nd Edition
CAN/CSA-C22.2 No. 60950-1-07 2nd Edition
IEC 60950-1: 2005
EN 60950-1: 2006
cCSAus
Approved by independent
body
(see CE declaration)
Agency Approvals
CE Mark
CB Report & Certificate
EU Low Voltage Directive
EMC Directive
UL94V-0
AC Primary to any Secondary (3000 VAC)
AC Primary to Chassis GND (1500 VAC / 2121 VDC)
Secondary to Chassis GND (100 VDC)
Reinforced
Basic
Insulation Strength
Functional
RS485 Communication to AC Primary, Secondary and Chassis
GND (500 VDC)
Functional
Primary (L/N) to chassis (PE)
Creepage / Clearance
According to safety standards
AC Primary to secondary
AC Primary Chassis GND, Secondary and RS485
Secondary and RS485 AC Primary and Chassis GND
RS485 AC Primary, Chassis GND and Secondary
Ground Continuity Test
2121 VDC
100 VDC
500 VDC
35 A
Production Electrical Strength Test
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V2 Power Module & V2 Power Shelf
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
Ambient Operating
Temperature
TA
TS
Power Shelf is able to start at -15°C
-5
+45
°C
Storage Temperature
Non-operational
-40
-55
10
+70
+85
90
°C
°C
%
Transport. Temperature
Relative Humidity
Short term storage
Operation and storage, non-condensing
3000
10000
M
Ft
Altitude
Operational (no derating)
-
Shock Operational
half-sine 11 ms, 5 shocks, 3 axes
half-sine 11 ms, 10 shocks, 3 axes
6
g
Shock Non-Operational
12
g
1.5 mm amplitude, 5 to 500 Hz, 10 sweeps at 1
octave / minute per each of the three axes
3 mm amplitude, 5 to 500 Hz, 10 sweeps at 1 octave /
minute per each of the three axes
Vibration Operational
0.5
1.0
g
g
Vibration Non-Operational
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
NOM
MAX
MAX
UNIT
Telcordia SR 332 issue 3, GB
CL =90%, TA = 45°C, Vi = 277 VAC, 100% load
without fan
MTBF
Mean time between failure
500
kh
PARAMETER
Dimension
Weight
DESCRIPTION / CONDITION
MIN
UNIT
Width
Height
Depth
165
65
551.5
mm
mm
mm
5.5
kg
Figure 24. Mechanical Drawing
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V2 Power Module & V2 Power Shelf
MANIFACTURER
P/N
BEL POWER
SOLUTION P/N
APPLICATION
DESCRIPTION
Main output busbars
3 x 25 x 34 mm
-
-
V1 Output busbar
Mating Part
Tyco 1643903-3
ZES.01258
8 Power + 44 Signals +
3Power AC pins, PwrBlade
Connector, Male 90° PCB
mount
FCI 51939-792LF
ZES.00478
AC input, DC input,
Auxiliary and Battery
Charger output, Signals
FCI 10066440-361LF
(panel mount)
FCI 51915-417LF
(PCB mount)
Mating Part
NOTE: Pins P2-P5, P10, P11, D6, C6, B6, A6 are lagging (short pins)
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V2 Power Module & V2 Power Shelf
CONNECTOR
PIN
NAME
DESCRIPTION
Power Output
J381
J382
J1
V1
+12 VDC main output
GR1
Power ground / 12 VDC return
54 VDC auxiliary output return
+54 VDC auxiliary output
P1
P2
AUX_54V_R
AUX_54V
J1
J1
D4, C4, B4, D5, C5
D2, C2
S_BC_52.5V
FAN_SUPPLY_R
FAN_SUPPLY
52.5 VDC battery charger
12 VDC supply for BBU fan return
+12 VDC supply for BBU fan
J1
J1
D3, C3
Power Input
P3, P4, P5
J1
J1
BAT
DC input from BBU
DC input from BBU return
52.5 VDC battery charger return
P6, P7, P8
BAT_R
AC input protective earth
J1
J1
J1
P9
AC_PE
AC_N
AC_L
P10
AC input neutral
P11
AC input line
Signals and Control
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
J1
D1
C1
BAT_VSENSE
BAT_VSENSE_R
BAT_FAIL
BAT_STOP_DCRG
BAT_SLEEP
BAT_EOL
BAT_PROT
BAT_SOH_CHK
BAT_CRG_EN
GR5
Battery voltage positive sense
Battery voltage negative sense
Battery fail signal
B1
A1
Battery stop discharge signal
Battery sleep signal
B2
A2
Battery end of life signal
Battery protection signal
Battery state of health check signal
Battery charge enable signal
Signal ground
B3
A3
A4
B5, B7
A5
BAT_KILL
PS_KILL
Battery insertion signal
PSU insertion signal
D6
C6
ISHARE
Current share signal
B6
Reserved
BAT_NSRT/ GR5
BAT_SCL
BAT_SDA
GR1
A6
Battery insertion signal / Signal ground
Battery clock line for I2C communication
Battery data line for I2C communication
Power ground
D7
C7
A7
D8
RED_LOST
PWR_FAIL
CAN_L
Backup redundancy status signal
Power fail status signal
CAN low communication line
CAN high communication line
Low power 12 V for shelf control supply
Synchronization signal
Synchronization signal
Synchronization signal
Address pin1
C8
B8
A8
CAN_H
D9
12V_SHELF
SYNC3
C9
B9
SYNC2
A9
SYNC1
D10
C10
B10
A10
D11
C11
B11
A11
ADD1
485_D
RS485 Data line
485_DN
RS485 Data N line
485_RTN
ADD2
RS485 ground
Address pin2
ADD3
Address pin3
ADD4
Address pin4
ADD5
Address pin5
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V2 Power Module & V2 Power Shelf
Stresses in excess of the absolute maximum ratings may cause performance degradation, adversely affect long-term
reliability, and cause permanent damage to the supply.
PARAMETER
Vi maxc Maximum Input Voltage
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
Continuous
305
VAC
General Condition: TA = 0… 45 °C unless otherwise noted.
Load condition definition: 100% load corresponds to:
(i)
Main 12.6 V: 6600 W + Auxiliary 54 V: 600 W + Battery Charger 52.5 V: 270 W x 3 in AC operation
(ii) Main 12.6 V: 6600 W + Auxiliary 54 V: 600 W in DC operation
and any fraction of it is scaling down all outputs simultaneous.
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
277
MAX
UNIT
AC Input
Viac nom
Viac
Nominal Input Voltage
Input Voltage Range
Input Current
3 Phase
200
180
VAC
VAC
A
Normal operating
305
Iiac max
Iiac inrush
fi
@ steady state, Vin = 180 VAC, per phase
@ cold start, Vin = 290 VAC, TA = 35°C, per phase
22.8
50/60
52.5
Inrush Current Limitation
Input Frequency
30
63
AP
47
Hz
DC Input (from BBU)
Vidc nom Nominal Input Voltage
Vidc DC Input Voltage Range
33.8
32
VAC
VAC
53
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V2 Power Module & V2 Power Shelf
General Condition: TA = 0…45 °C unless otherwise noted.
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
Main Output V1 (12.6 V)
P1 shelf nom
I1 shelf nom
CV1 load
Output Power
6600
530
W
Output Current
ADC
mF
Capacitive Loading
0
0
200
Auxiliary Output VAUX (54 V)
PAUX shelf nom
IAUX shelf nom
Output Power
Output Current
600
W
A
11.4
Battery Charger Output VBC (52.5 V)
Each BBU is connected separately to a PSU. Ratings see Power Module section
PARAMETER
Input Signals
DESCRIPTION / CONDITION
CRITERION
Address pins for RS485 PSU address for the location of
the shelf inside the rack;
Referred to RS485 isolated ground
Set by the user via a shelf input connector.
See also communication manual
BCA.00072
ADD3…5
Output Signals
Signal to flag potential loss of power due to backup
timeout;
Active low, normally high open collector signal
This signal is pulled low if the PSU is 45s
in backup and AC is not yet returned
PWR_FAIL
This signal is pulled low if at least one
PSU or BBU in the shelf has failed, is not
operational or is not present.
The signal is not pulled low in case of a
BAT_PROT or BAT_STOP_DCRG event.
Signal to flag loss of redundancy;
Active low, normally high open collector signal
RED_LOST
Bidirectional Signals to PSU
RS485_D / RS485_DN
RS485 communication lines for monitoring of all PSUs;
Isolated from other outputs
Bidirectional Signals
BAT_I2C_SDA/
BAT_I2C_SCL
I2C communication to the BBU
The power shelf has a LED on the back side, showing the status of the main 12 V.
PARAMETER
DESCRIPTION / CONDITION
CRITERION
Green solid
Off
If main 12 V >10V
Otherwise
12V LED
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+86 755 298 85888
Europe, Middle East
North America
+353 61 225 977
+1 408 785 5200
© 2018 Bel Power Solutions
BCD.00343_010
30
V2 Power Module & V2 Power Shelf
PARAMETER
DESCRIPTION / CONDITION
IEC / EN 61000-4-2, ±8 kV
IEC / EN 61000-4-2, ±15 kV
IEC / EN 61000-4-4, Level 4
CRITERION
ESD Contact Discharge
ESD Air Discharge
EFT / Burst
A
A
A
IEC / EN 61000-4-5
Surge
Differential Mode 2 kV (Line to Neutral)
Common Mode 4 kV (Line/Neutral to Earth)
A
PARAMETER
DESCRIPTION / CONDITION
FCC Part 15 / EN 55022/ CISPR 22
FCC Part 15 / EN 55022/ CISPR 22
CRITERION
Class A
Conducted Emission
Radiated Emission
Class A
IEC 61000-3-2
Vi = 277 VAC / 60 Hz & 230 VAC / 50 Hz, 100% load
Harmonic Current Emissions
Class A
Maximum electric strength testing is performed in the factory according to IEC/EN 60950, and UL 60950. Input-to-output
electric strength tests should not be repeated in the field. Bel Power Solutions will not honor any warranty claims resulting
from electric strength field tests.
PARAMETER
DESCRIPTION / CONDITION
NOTE
UL 60950-1 2nd Edition
CAN/CSA-C22.2 No. 60950-1-07 2nd Edition
IEC 60950-1: 2005
EN 60950-1: 2006
cCSAus
Approved by independent body
(see CE declaration)
Agency Approvals
CE Mark
CB Report & Certificate
EU Low Voltage Directive
EMC Directive
UL94V-0
AC Primary to any Secondary (3000 VAC)
AC Primary to Chassis GND (1500 VAC / 2121 VDC)
Secondary to Chassis GND (100 VDC)
Reinforced
Basic
Insulation Strength
Functional
RS485 Communication to AC Primary, Secondary and
Chassis GND (500 VDC)
Functional
Primary (L/N) to chassis (PE)
Creepage / Clearance
According to safety standards
AC Primary to secondary
AC Primary Chassis GND, Secondary and RS485
Secondary and RS485 AC Primary and Chassis GND
RS485 AC Primary, Chassis GND and Secondary
Ground Continuity Test
2121 VDC
100 VDC
500 VDC
35 A
Production Electrical Strength Test
tech.support@psbel.com
31
V2 Power Module & V2 Power Shelf
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
TA
TS
Ambient Operating Temperature
Power Shelf is able to start at -15°C
-5
+45
°C
Storage Temperature
Transport. Temperature
Relative Humidity
Non-operational
-40
-55
10
+70
+85
90
°C
°C
%
Short term storage
Operation and storage, non-condensing
3000
10000
m
ft
Altitude
Operational (no derating)
-
Shock Operational
half-sine 11 ms, 5 shocks, 3 axes
half-sine 11 ms, 10 shocks, 3 axes
6
g
g
Shock Non-Operational
12
1.5 mm amplitude, 5 to 500 Hz, 10 sweeps at 1
octave / minute per each of the three axes
Vibration Operational
0.5
1.0
g
g
3 mm amplitude, 5 to 500 Hz, 10 sweeps at 1
octave / minute per each of the three axes
Vibration Non-Operational
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
Width
Height
Depth
534.5
139
mm
mm
mm
Dimension
Weight
780.6
15.5
kg
Asia-Pacific
Europe, Middle East
North America
+86 755 298 85888
+353 61 225 977
+1 408 785 5200
© 2018 Bel Power Solutions
BCD.00343_010
32
V2 Power Module & V2 Power Shelf
tech.support@psbel.com
33
V2 Power Module & V2 Power Shelf
MANUFACTURER
P/N
BEL POWER
SOLUTION P/N
CONNECTOR
PARAMETER
DESCRIPTION / CONDITION
Main output busbars
3 x 50 x 206.1 mm
-
-
-
V1 Output busbar
Mating part
-
5pin Scorpion Power Connector,
90° PCB mount
SP5YYE48M0LN9A1/
AA-PA1067
Positronic
Positronic
Molex
AC input connector
SP5YYE1F0091/AA
(housing)
FC1210P2S/AA (pin)
Mating part
2x3 pin Mini-Fit Jr. Power
Connector, 90° PCB mount
39-30-1062
PWR_FAIL and
RED_LOST 9V
connector
39-01-2065 (housing)
39-00-0208 (pin)
Mating part
Molex
FCI
RS485
RJ45 connector, 90° PCB mount
Mating part
87180-088LF
communication,
addresses and
PWR_FAIL /
Various
RJ45 connector
RED_LOST signals
3 pin Sabre Power Connector,
90° PCB mount
Molex
Molex
43160-3103
Auxiliary output
44441-2003 (housing)
43375-0001 (pin)
Mating part
Asia-Pacific
Europe, Middle East
North America
+86 755 298 85888
+353 61 225 977
+1 408 785 5200
© 2018 Bel Power Solutions
BCD.00343_010
34
V2 Power Module & V2 Power Shelf
CONNECTOR
PIN
NAME
DESCRIPTION
Power Output
BB1
V1
GR1
Power ground / 12 VDC return
+12 VDC main output
BB2
J2
1
2
3
AUX_54V
AUX_54V_R
PE
+54 VDC auxiliary output
54 VDC auxiliary output return
protective earth
J2
J2
Power Input
J1
1
2
3
4
5
AC_L1
AC_N
AC input line
AC input neutral
AC input line
J1
J1
AC_L2
AC_PE
AC_L3
J1
AC input protective earth (long pin)
AC input line
J1
Signals and Control
J4
J4
J4
J4
J4
J4
J4
J4
J3
J3
J3
1
2
485_RTN
PWR_FAIL
RED_LOST
485_D
RS485 ground
Power fail status signal
Redundancy status signal
RS485 Data line
3
4
5
485_DN
RS485 Data N line
6
ADD3
Address pin3
7
ADD4
Address pin4
8
ADD5
Address pin5
1, 4
2, 5
3, 6
PWR_FAIL_9V
GR1
9 V / 1 A output turned on with power fail status signal
Power ground
RED_LOST_9V
9 V / 1 A output turned on with redundancy status signal
tech.support@psbel.com
35
V2 Power Module & V2 Power Shelf
Please see BBU Manufacturer datasheet for detailed information.
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
Width
Height
Depth
160
62
mm
mm
mm
Dimension
Weight
433.7
5.6
kg
PARAMETER
DESCRIPTION / CONDITION
MANUFACTURER P/N
BEL POWER SOLUTIONS P/N
TBD
Asia-Pacific
+86 755 298 85888
Europe, Middle East
North America
+353 61 225 977
+1 408 785 5200
© 2018 Bel Power Solutions
BCD.00343_010
36
V2 Power Module & V2 Power Shelf
ORDERING PART
NUMBER
ITEM
DESCRIPTION
SOURCE
Blank Panel PSU
Mechanical blank panel to cover
empty PSU slot
belfuse.com/power-solutions
SPSFCBK-12BP01
Blank Panel BBU
Mechanical blank panel to cover
empty BBU slot
belfuse.com/power-solutions
SPSFCBK-12BP02
DOCUMENT NUMBER
DESCRIPTION
AUX
BC
Auxiliary -> used as shortcut for the 300W auxiliary converter
Battery Charger -> used as shortcut for the 270W battery charger converter
BBU
BKP
CF
Battery Backup Unit
Backup
Current Feed -> used as shortcut for the 3600W DC input to HV Bulk converter
CRG
DCRG
EN
Charge
Discharge
Enable
EOL
FW
End of Life
Firmware
HW
Hardware
OT /OTP
OV / OVP
OR
Over Temperature (Protection)
Over Voltage (Protection)
Oring
PF
Power Factor
PFC
SOH
SR
Power Factor Correction
State of Health
Synchronous Rectification
Software
SW
THD
UV / UVP
Total Harmonic Distortion
Under Voltage (Protection)
tech.support@psbel.com
37
V2 Power Module & V2 Power Shelf
DOCUMENT NUMBER
BCA.00072
DESCRIPTION
SPAFCBK-11G RS485 Communication Manual
SPAFCBK-11G Installation Instruction
SPSFCBK-18 Installation Instruction
SPSFCBK-18 Mechanical outline drawing
BCM 00366 0
BCM 00367 0
SPSFCBK-18.FD
For more information on these products consult: tech.support@psbel.com
NUCLEAR AND MEDICAL APPLICATIONS - Products are not designed or intended for use as critical components in life support systems,
equipment used in hazardous environments, or nuclear control systems.
TECHNICAL REVISIONS - The appearance of products, including safety agency certifications pictured on labels, may change depending on
the date manufactured. Specifications are subject to change without notice.
Asia-Pacific
Europe, Middle East
North America
+86 755 298 85888
+353 61 225 977
+1 408 785 5200
© 2018 Bel Power Solutions
BCD.00343_010
相关型号:
SPSO2N60C3
Power Field-Effect Transistor, 1.8A I(D), 600V, 3ohm, 1-Element, N-Channel, Silicon, Metal-oxide Semiconductor FET, TO-251AA, GREEN, PLASTIC, TO-251, 3 PIN
INFINEON
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