UMP04C-S2Q-S2W-00-A [ARTESYN]
UMP CONFIG PWR SUPPLY 4SLOT CONN;型号: | UMP04C-S2Q-S2W-00-A |
厂家: | ARTESYN TECHNOLOGIES |
描述: | UMP CONFIG PWR SUPPLY 4SLOT CONN |
文件: | 总15页 (文件大小:2530K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
ARTESYN μMP SERIES
GEN II
Up to 1800 Watts with New Product
Enhancements
Advanced Energy's Artesyn μMP series GEN II power supply
is a configurable power supply with market-leading density
and efficiency. It features a very wide 85 to 264 Vac input
voltage range and employs active power factor correction
to minimize input harmonic current distortion and to ensure
compliance with the international EN61000-3-2 standard –
they have a power factor of 0.99 typical. The power supplies
also feature active AC inrush control to automatically limit
inrush current at turn-on to 40 A maximum.
AT A GLANCE
Total Power:
Up to 1800 Watts Peak*
Input Voltage:
85 - 264 Vac
120 - 300 Vdc
# of Outputs:
Up to 12
Military STD shock/vibration (40G’s)
SPECIAL FEATURES
Low cost
Full Medical EN60601 approval
IEC, terminal block or barrier strip
* Max output power for μMP16: 1000 W
90 - 100 VAC; 1200 W 100 - 180 VAC;
1600 W 180 - 200 W; 1800 W 200 -
264 VAC. Operational specs for EMI
and Hold-up are valid to 1600 W max.
PMBus monitor/control of input
functions
input connection options
Low profile 1U size
High efficiency
Superior aesthetics over GEN I
Constant current limit protection
High power density.
· μMP04: 10.8 W/cu-in
· μMP09: 18.5 W/cu-in
· μMP10: 15.1 W/cu-in
· μMP16: 22.9 W/cu-in
CERTIFICATIONS
UL
UL/CSA 62368-1
ES60601-1 / CSA 22.2
No.60601-1
Low noise intelligent fan (speed
control/fault status), 36% reduction
from GEN I
TUV
CB
CE
EN62368-1 / EN60601-1
Certificate and Report
Compliance to LVD and
RoHS Directives
Downloadable GUI from website
Optional conformal coating
CQC
Approved
Industrial temp range (-40 ºC to
70 ºC)
Medical 2x MOPP
** μMP tested according to the medical
standard IEC 60601-1-2 4th Edition.
No preload required
©2021 Advanced Energy Industries, Inc.
μMP
ELECTRICAL SPECIFICATIONS
Input
Input range
Frequency
Inrush current
Efficiency
85 - 264 Vac, 120 - 350 Vdc (limited to 300 Vdc in medical applications)
47 - 440 Hz
40 A peak max. (soft start)
Up to 91.5% @ full case load
Power factor
Standby power
0.99 typ. meets EN61000-3-2 (n/a @ 440 Hz)
uMP10/16 < 13 W
uMP04/09 < 6 W
Turn-on time
EMI:
AC on 2 sec for μMP16/10 and 1.5 sec for μMP04/09, inhibit/enable 250 ms typical
CISPR 22/EN55022 Level “B” (Both Conducted and Radiated)
Leakage current
<200 uA using center-tapped xfmr measurement method.
(<400 uA @ 264 VAC input)
Holdover storage
AC OK
16.7 ms minimum (independent of input Vac, 0 °C to 50 °C)
At 1200 W for μMP16
Signal goes low indicating loss of AC input.
Hold up = Full cycle ride thru (50 Hz); Open collector
Harmonic current emission
Isolation
Meets EN61000-3-2
Meets EN62368 and EN60601
Global inhibit/enable
Input fuse (internal)
Warranty
TTL, Logic “1” and Logic “0”; fan off when unit is inhibited
μMP16/10: 16 A, 500 Vac, 400 Vdc, μMP04/09: 10 A / 250 V. (both lines fused)
3 years
Output
Factory set point accuracy
Margining / V-Program
1%
3 - 7% nominal analog (single output module only). Contact factory for simple V-program
modification (i.e. 0-5 V input = 0-100% output voltage).
Overall regulation
Ripple
0.4% or 30 mV which ever is greater
RMS: 0.1% or 10 mV, whichever is greater
Pk-Pk: 1.0% or 50 mV, whichever is greater. Bandwidth limited to 20 MHz
Dynamic response
Recovery time
<
5% or 250 mV, with 50% step load, Min 20% load condition
To within 1% in < 300 μsec
Reverse voltage protection
Thermal protection (OTP)
Remote sense
100% of rated output current
All outputs disabled when internal temp exceeds safe operating range
Up to 0.5 V total drop (not available on triple output module)
Current share to within 5% of total rated current from 20% to 100% rated load
5% of nominal Open collector
Single wire parallel
DC OK
Minimum load
Not required
Housekeeping standby
5 Vdc @ 2.0 A max whenever AC input is applied. 1.0 A (2.0 A for μMP04) max convection cooled
(when output is inhibited off)
Module inhibit
Logic - output on with low or open. Different logic options available
> 1 Megohm, 500 V
Output/Output isolation
2
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μMP
ENVIRONMENTAL SPECIFICATIONS
Operating temperature
-40 °C to 70 °C ambient. Derate each output 2.5% per degree from 50 °C to 70 °C. Cold start soak
-20 °C, allow 10 min warm-up before all outputs are within specification. Reverse air to 40 °C Max due
to fan derating.
Storage temperature
Electromagnetic susceptibility
Humidity
-40 °C to +85 °C
Designed to meet EN61000-4:-3,-5,-6,-11 Class 3 Performance Criteria A
Operating; non-condensing 10% to 95% RH
Vibration
MIL-STD-810E
MTBF demonstrated
Altitude
> 350,000 hours at full load, one μMP04 case + two modules, Telcordia SR-332 calculated MTBF
Up to 10 K feet; derate linear to 50% from 10 K - 30 K feet
Vout
Full load (A) OVP trip max (V) OCP trip typ (Iout%) SCP trip max (Iout%) Overshoot (max mV) Peak Deviation (max mV)
3 V 3 Module
0.9
40
40
40
2.00 V
5.96 V
6.31 V
130%
130%
130%
160%
160%
160%
150
250
250
250
250
250
3.3
3.6
5 V Module
3.2
36
36
30
5.76 V
9.0 V
130%
130%
130%
160%
160%
160%
250
250
300
250
250
300
5
6
10.80 V
12 V Module
6
25
20
16
10.80 V
15.60 V
19.50 V
130%
130%
130%
160%
160%
160%
300
600
750
300
600
750
12
15
24 V Module
12
13
10
8
15.60 V
31.20 V
39.00 V
130%
130%
130%
160%
160%
160%
600
120
600
1200
1500
24
30
1500
48 V Module
28
48
60
7
5
4
36.40 V
62.40 V
78.00 V
130%
130%
130%
200%
160%
200%
1400
2400
3000
1400
2400
3000
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3
μMP
CASE LINE-UP
Max Output
180-263 VAC
Max Continous
Current
Case
Dimensions
Connections
85-180 VAC
256.9 x 88.9 x 40.0
(10.11” x 3.5” x 1.57”)
IEC, Terminal-Block,
Barrier-Strip
μMP04 - 4 Slot
μMP09 - 4 Slot
μMP10 - 6 Slot
μMP16 - 6 Slot
400 W
600 W
1100 W
1200 W
1800 W
9.91
9.91
256.9 x 88.9 x 40.0
(10.11” x 3.5” x 1.57”)
IEC, Terminal-Block,
Barrier-Strip
550 W
1000 W
1000 W
256.9 x 127 x 40.0
(10.11” x 5.0” x 1.57”)
IEC, Terminal-Block,
Barrier-Strip
13.87
13.87
256.9 x 127 x 40.0
(10.11” x 5.0” x 1.57”)
IEC, Terminal-Block,
Barrier-Strip
OUTPUT MODULE LINE-UP S2*
Output Range (Vdc)
0.9 - 3.6
Max Current (Amps)
Max Power (Watts)
Module Codes Standard Outputs
A, B, C, D - 2, 2.2, 3, 3.3
40
36
25
13
7
144
180
240
240
240
3.2 - 6.0
E, F, G, H - 5, 5, 2, 5.5, 6.0
6.0 -15.0
I, J, K, L, M, N - 8, 10, 11, 12, 14, 15
O, P, Q, R, S - 18, 20, 24, 28, 30
T, U, V, W, X, Y - 33, 36, 42, 48, 54, 60
12.0 - 30.0
33.0 - 60.0
Dual Output Module. Each output is rated to 96 W (192 Watts total).
Wide range is adjustable.
3.3 - 30.0
4/4
96/96
DC OUTPUT MODULE RATING (SK*) 3-SLOTS
Output (Vdc)
6.0 – 15.0
MAX Current (Amps)
MAX Power (Watts)
Modules Codes (*) Standard Outputs
H, I, J, K, L, M, N – 6, 8, 10, 11, 12, 14, 15
O, P, Q, R, S – 18, 20, 24, 28, 30
84
42
21
1000
1000
1000
12.0 – 30.0
28.0 – 60.0
T, U, V, W, X, Y – 33, 36, 42, 48, 54, 60
INTERNAL PART NUMBER REFERENCE TABLE
Part #
Where X =
T, C, S
Description
μMP10 Cases
Module Code
μMP10
73-951-0001X-G2
73-956-0001X-G2
73-963-XXXX
T, C, S
μMP16 Cases
μMP16
0012, 0024, 0048, 04XX
0012, 0024, 0048, 04XX
uMP 1000W Module
uMP 1000W Module
SKL - SKZ
SKL - SKZ
73-963-00XX-G2
4
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μMP
ORDERING INFORMATION
μMPXY
-
SKW - S2E - S2Q - ILL
-
00
-
A
-
###
Module Codes:
First digit
0-9 = Parallel Code
Factory assigned
for modified
standards
Case Size
1-Phase Input where X =
S2 = 200 W Single O/P (1 Slot)
SK = 1000 W Single O/P (3 Slot)
I = 96 W Dual O/P ISO GND (1
Slot)
HUP = Hold-Up Module
(10ms for 500W /1 Slot)
04 = 1.57” x 3.5” x 10.0”; 400W - 600W 4 Slots
09 = 1.57 x 3.5 x 10.0, 550W-1100W 4 Slots
10 = 1.57 x 5.0” x 10.0”, 1000W-1200W, 6 Slots
16 = 1.57” x 5.0” x 10.0”, 1200W-1800W**, 6
Slots
Second Digit
0 = No Options
1 = Reverse Air
2 = Not Used
3 = Global Enable
5 = Opt 1 + Opt 3
** See Output derating table below for uMP16
Voltage Codes: See voltage
code table
Input Type where Y =
T = Terminal Block
C = IEC Connector C14
S = Barrier Strip
μMP16 OUTPUT POWER DERATING
Paramater
Designed For
85 - 99 Vac
1000 W
100 - 140 Vac
1200 W
180 - 199 Vac
1600 W
200 - 264 Vac
1800 W
QAV Evaluation
1000 W
1200 W
1600 W
1800 W
Safety Label and Evaluation
1000 W
1000 W
1600 W
1600 W
PARALLEL CODES
Code
Slots in Parallel
Code
Slots in Parallel
1&2&3
Code
Slots in Parallel
Code
Slots in Parallel
no module in parallel
3,4&5
1
2
3
4
5
1&2
2&3
3&4
4&5
5&6
6
7
8
9
A
B
C
D
E
1&2; 3&4
1,2&3; 4&5
0
H
J
1,2,3&4
1,2,3,4&5
1,2,3,4,5&6
1,2,3&4; 5&6
1&2; 3&4; 5&6
1,2&3; 4,5&6
3,4,5&6
K
4,5&6
Notes:
Parallel between SK* (1000 W Modules) and S2* (240 W Modules) will use the codes as follows
Code 3 to parallel 2 SK* modules
Code 3 to parallel 1 SK* module and 1 S2* module
Code H to parallel 1 SK* module and 2 S2* modules
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5
μMP
VOLTAGE CODES
Standard Output Ratings
Module Output
Voltage Code
Single Output One Slot 240 Watts
Max
Single Output Three Slots 1000
Watts Max
Dual Output One Slot
96 Watts
Module
Identification
S2
SK
I
Output Current
Output Current
V1
Output Current
V1
Code
Volts
V1
V2
A
B
C
D
E
2.0
2.2
40.0
40.0
40.0
40.0
36.0
34.0
32.0
30.0
25.0
24.0
22.0
20.0
17.0
16.0
13.0
12.0
10.0
8.6
-
NA
NA
NA
-
3.0
-
3.3
-
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
3.4
3.2
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
3.4
3.2
5.0
-
F
5.2
-
G
H
I
5.5
-
6.0
84.0
84.0
84.0
84.0
84.0
71.4
66.7
42.0
42.0
42.0
35.7
33.3
21.0
21.0
21.0
21.0
18.5
16.7
8.0
J
10.0
11.0
12.0
14.0
15.0
18.0
20.0
24.0
28.0
30.0
33.0
36.0
42.0
48.0
54.0
60.0
K
L
M
N
O
P
Q
R
S
T
8.0
7
NA
NA
NA
NA
NA
NA
U
V
W
X
Y
6.7
5.7
5.0
4.4
4.0
6
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μMP
DERATING CURVES - MP10
Standard Fan (12 V/24 V/48 V)
Reverse FAN (12 V/24 V/48V)
85 VAC
100 VAC
110 VAC
200 VAC
264 VAC
85 VAC
100 VAC
110 VAC
200 VAC
264 VAC
1200
1100
1000
900
1200
1100
1000
900
800
800
700
700
600
600
500
500
400
400
0
10
20
30
40
50
60
7 0
0
10
20
30
40
50
60
70
Temperature
Temperature
μMP04/09 (AC input on opposite side)
μMP10/16 (AC input on opposite side)
S
L
O
T
6
S
L
O
T
5
S
L
O
T
4
S
L
O
T
3
S
L
O
T
1
S
L
O
T
2
S
L
O
T
S
L
O
T
S
L
O
T
S
L
O
T
J2
J1
J2
J1
4
2
1
3
Input
Input
85 - 264 Vac
400 W max.
550 W max.
200 - 264 Vac
600 W max.
1100 W max.
85 - 264 Vac
1000 W max.
1200 W max.
200 - 264 Vac
1200 W max.
1800 W max.
μMP04 = 4 available slots
μMP09 = 4 available slots
μMP10 = 6 available slots
μMP16 = 6 available slots
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7
μMP
PIN CONNECTORS
Mates with
Landwin 2050S1000 Housing
2053T011V Pin
Figure 1. AC Input
J2
AC Input
I2C Bus Output Connector
Pin Function
Pin Function
IEC Connector
or
1
2
3
AC neutral
1
2
3
4
5
6
7
8
9
5 Vcc bus
JST PHDR-10VS Housing
JST SPHD-002T-P0.5 (28-24)
JST SPHD-001T-P0.5 (26-22)
AC line (hot)
Serial data signal (SDA)
Secondary return (COM)
Serial clock signal (SCL)
Address bit 2 (A2)
No connection
Terminal Block
Chassis (earth) ground
PEN L
J1
Connector Kit Part No.:
70-841-023
PFC Input Connector
(control & signals)
Pin Function
Address bit 1 (A1)
No connection
1
2
3
4
5
6
7
8
9
Input AC OK - “emitter”
Input AC OK - “collector”
Global DC OK - “emitter”
Global DC OK - “collector”
Spare
Address bit 0 (A0)
10 No connection
9
10
1
2
Global inhibit/optional enable logic “1”
Global inhibit/optional enable logic “0”
Global inhibit/optional enable return
+5 VSB housekeeping
Figure 2. Connector J1 & J2
10 +5 VSB housekeeping return
S2 MODULE
240 W
DC Output Control & Signals (Single output)
Pin Function
1
2
3
4
5
6
7
8
9
No connection
No connection
Current share
Module inhibit return
Module ISO inhibit
SCOM
-RMT sense
Margin
V ADJ
2.3 0.2
1.0 0.ꢀ2
Remote margin / V prog.
ꢀ9.8 0.ꢀ
3ꢀ.2 0.3
36.2 0.3
10 +RMT sense
37.2 0.3
36.2 0.3
V+
V-
CAPS HEIGHT
4.2 0.3
1ꢀ.2 MAX
3.0 MAX
0.8 - 1.2
1.6 0.16
9
10
1
2
130.0 1.2
8
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μMP
SK MODULE
1000 W 48 V Outputs
122.00 0.5
1000 W 12/24 V Output:
DC Output Control & Signals (Single output)
Pin Function
1
2
3
4
5
6
7
8
9
No connection
No connection
Current share
Module inhibit return
Module ISO inhibit
SCOM
-RMT sense
Margin
Remote margin / V prog.
10 +RMT sense
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9
μMP
DUAL MODULE
DC Output Control & Signals (Dual output)
Pin Function
1
2
3
4
5
6
7
8
9
-RMT sense V2
+RMT sense V2
No connection
Module inhibit rtn
Module ISO inhibit
SCOM
-RMT sense V1
No connection
No connection
10 +RMT sense V1
10 advancedenergy.com
μMP
μMP SERIES
μMP04/09 (400/600; 550/1100 Watts Max)
Case Size: μMP04/09: 10.11” x 3.5” x 1.57” (256.9 mm x 88.9 mm x 40.0 mm)
Weight: μMP04/09 Case: 1.96 lbs • Single O/P: 0.22 lb.
• Dual O/P: 0.16 lb. • Blank: 0.06 lb.
Notes:
1. Input: IEC 60320 C13 (for IEC connector)
Barrier Type DECA Switchlab MT300-50003 (for terminal block connector); Max Torque: 4.0 lb-in (0.4 - 0.5 Nm); Wire: 12 - 16 AWG; Wire Strip Length: 0.354” (9.0 mm)
2. Control Connectors (J1 and J2): 10-position housing, brass, matte tin-plated contacts. Mates with housing 2050S1000 (Landwin) with 2053T011P (Landwin) pins or housing
PHDR-10VS (JST) and SPHD- 002T-PO.5 (JST) pins.
3. Output Module Connectors: All single O/P modules are M4 x 10 mm screws; tighten between 6.94 to 8.68 lb-in (8.0 to 10.0 kg-cm). Dual O/P module is PUSH IN conductor connector;
Wire Strip Length: 0.315” (8.0 mm); Control signal connector: Refer to Item 2.
4. Chassis Material: Steel with chemical film coating (conductive).
5. Customer Mounting: Screw M4-type mounting holes; Max. Penetration is 0.138” (3.5 mm); Max. Torque: 8.85 lb-in (1.0 N-m)
6. All dimensions are in millimeters and inches, and are typical.
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11
μMP
μMP SERIES (CONTINUED)
μMP10 (1000/1200 Watts Max)
μMP16 (1200/1800 Watts Max)
Case Size: μMP10/16: 10.11” x 5” x 1.57” (256.9 mm x 127 mm x 40.0 mm)
Weight: μMP10/16 Case: 2.78 lbs • Single O/P: 0.22 lb.
• Dual O/P: 0.16 lb. • Blank: 0.06 lb.
Notes:
1. Input: IEC 60320 C13 (for IEC connector)
Barrier Type DECA Switchlab MT300-50003 (for terminal block connector); Max Torque: 4.0 lb-in (0.4 - 0.5 Nm); Wire: 12 - 16 AWG; Wire Strip Length: 0.354” (9.0 mm)
2. Control Connectors (J1 and J2): 10-position housing, brass, matte tin-plated contacts.Mates with housing 2050S1000 (Landwin) with 2053T011P (Landwin) pins or housing
PHDR-10VS (JST) and SPHD-002T-PO.5 (JST) pins.
3. Output Module Connectors: All single O/P modules are M4 x 10 mm screws; tighten between 6.94 to 8.68 lb-in (8.0 to 10.0 kg-cm). Dual O/P module is PUSH IN conductor connector;
Wire Strip Length: 0.315” (8.0 mm); Control signal connector: Refer to Item 2.
4. Chassis Material: Steel with chemical film coating (conductive).
5. Customer Mounting: Screw M4-type mounting holes; Max. Penetration is 0.138” (3.5 mm); Max. Torque: 8.85 lb-in (1.0 N-m)
6. All dimensions are in millimeters and inches, and are typical.
12 advancedenergy.com
μMP
μMP HUP MODULE
The μMP HUP module is intended for use on μMP09 with high efficiency module (SK*) configurations. In such case, only
one HUP can be used per case.
Its application is limited with μMP09 and μMP04 configurations and may have multiple HUP’s inserted.
The HUP module shall provide additional 224μF bulk capacitance (typ.). Typical hold-up time increase with HUP module
in μMP09 case and SK* module is 10ms at 500W load.
73-950-002
Actual μMP HUP Module and μMP09 Configuration
μMP09 Config with HUP at Slot1
Typical HUP Response with μMP09-SKW Configuration
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13
μMP
μMP HUP MODULE (CONTINUED)
Typical HUP Response with μMP09-S2* Configuration
14 advancedenergy.com
ABOUT ADVANCED ENERGY
Advanced Energy (AE) has devoted more than three
decades to perfecting power for its global customers. AE
designs and manufactures highly engineered, precision
power conversion, measurement and control solutions for
mission-critical applications and processes.
Our products enable customer innovation in complex
applications for a wide range of industries including
semiconductor equipment, industrial, manufacturing,
telecommunications, data center computing, and medical.
With deep applications know-how and responsive service
and support across the globe, we build collaborative
partnerships to meet rapid technological developments,
propel growth for our customers, and innovate the future
of power.
For international contact information,
visit advancedenergy.com.
Specifications are subject to change without notice. Not responsible
for errors or omissions. ©2021 Advanced Energy Industries, Inc. All rights
reserved. Advanced Energy®, AE® and Artesyn™ are U.S. trademarks
of Advanced Energy Industries, Inc.
powersales@aei.com (Sales Support)
productsupport.ep@aei.com (Technical Support)
+1 888 412 7832
ENG-μMP-235-01 8.26
相关型号:
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