MP1-2E-1L-1L-1N-1Q-1Q-00 [ARTESYN]

MP CONFIGURABLE POWER SUPPLY;


型号：	MP1-2E-1L-1L-1N-1Q-1Q-00
厂家：	ARTESYN TECHNOLOGIES
描述：	MP CONFIGURABLE POWER SUPPLY
文件：	总14页 (文件大小：3925K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

ARTESYN

INTELLIGENT MP SERIES

Up to 1500 Watts

Advanced Energy's Artesyn iMP series is an AC input to

DC output configurable power system consisting of a

microprocessor-controlled PFC front end providing seven

slots that accept intelligent DC-DC converter modules with

single, dual or triple outputs ranging from 2 V to 60 V. Single

output modules come in four power ranges that can be

mixed and matched and connected in parallel or series to

obtain thousands of output combinations customized to any

application.

AT A GLANCE

Total Power:

Up to 1500 W

Input Voltage:

85 to 264 Vac

120 to 300 Vdc

# of Outputs:

^Optional extended hold-up module

(SEMI F47 compliance)

Up to 21

SPECIAL FEATURES

^Full medical EN60601 approval

^Intelligent I²C control

^Increased power density to 50% over

standard MP

^External switching frequency sync

input

^Voltage adjustment on all outputs

(manual or I²C)

^Optional conformal coating

^Configurable input and output OK

signals and indicators

^Industrial temp range (-40 ºC to

70 ºC)

^Configurable inhibit/enable

^No preload required

^Configurable output UP/DOWN

sequencing

^Industrial shock/vibration (> 50G’s)

^Configurable current limit

(foldback or constant current)

SAFETY

^High power density (8.8 W/cu-in)

^UL

UL60950/ES60601-1

^Intelligent fan (speed control/fault

status)

^CSA CSA C22.2 No. 60950-1-07/

CSA C22.2 No. 60601-1

^Downloadable GUI from website

^Customer provided air option

^TUV EN62368-1/EN60601-1

^CB

Certificate and report

Mark to LVD

^uP controlled PFC input with active

inrush protection

^I²C monitor of voltage, current, and

temp

^CE

^CCC

^Programmable voltage, current limit,

inhibit/enable through I²C

IMP

ELECTRICAL SPECIFICATIONS

Input

Input range

85 to 264 Vac; 120 to 300 Vdc

(limited to 300 Vdc in medical applications)

Frequency

47 to 63 Hz (iMP1 47 to 440 Hz)

40 A peak maximum (soft start)

Up to 85% @ full case load

Inrush current

Efficiency

Power Factor

Turn-on time

0.99 typ. meets EN61000-3-2 (n/a @ 440 Hz)

AC on 2.0 sec typ., inhibit/enable 150 ms typical

Programmable delay; 50 ms internal turn-on delay (Dual Output only)

EMI filter

CISPR 22/EN55022 Level “B”**

300 µA max. @ 240 Vac; 47 - 63 Hz

CISPR 22/EN55022 Level “B”**

Leakage current

Radiated EMI

Holdover storage

20 ms minimum (independent of input Vac) additional 34 ms holdover

storage with optional HUP module (SEMI F47 compatible).

For iMP4 15 ms (low-line), 10 ms (high-line)

AC OK

> 5 ms early warning min. before outputs lose regulation

Full cycle ride thru (50 Hz) (n/a on iMP4 > 750 W @ 90 Vac)

Harmonic distortion

Isolation

Meets EN61000-3-2

Meets EN60950 and EN60601

Input to output: 4000 Vac; input to ground: 1500 Vac; output to ground: 400 Vdc

Meets 1 MOPP Primary to ground, 2 MOPP Primary to Secondary

Global inhibit / enable

Input fuse (internal)

Warranty

TTL, Logic “1” and Logic “0”; configurable

iMP4: 16 A; iMP8: 20 A; iMP1: 25 A (both lines fused)

2 years

advancedenergy.com

IMP

ELECTRICAL SPECIFICATIONS (CONTINUED)

Output

Adjustment range*

10% minimum all outputs (manual)

(full module adjustment range using I²C)

Factory set point accuracy

I²C output program accuracy

Margining

4 - 6% nominal analog (single output module only)

Overall regulation

Ripple

0.4% or 20 mV max. (1500 W modules 1% max.) (36 W modules 4% maximum)

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

< 2% or 100 mV, with 25% load step

To within 1% in < 300 µsec

Overcurrent protection**

Configurable through I²C (calibration required). Single output module and main output of the dual output module

105 - 120% of rated output current. Aux output of dual output module 105 - 140% of rated output current

Short-circuit protection

Overvoltage protection*

Protected for continuous short-circuit.

Recovery is automatic upon removal of short

Configurable through I²C

Single output module: 2 to 5.5 V 122 to 134%; 6 to 60 V 110 to 120%

Dual output module: 2 to 6 V 122 to 134%; 8 to 28 V 110 to 120%

Triple output module: 110 - 120% of highest voltage rating

Thermal protection*

(OTP and OTW)

Configurable through I²C

All outputs disabled when internal temp exceeds safe operating range. > 5 ms warning (AC OK signal) before

shutdown

Remote sense

Up to 0.5 V total drop (not available on triple output module)

Current share to within 2% of total rated current

5% of nominal. Configurable through I²C

Not required

Single wire parallel

DC OK*

Minimum load

Housekeeping bias voltage

Module inhibit*

5 Vdc @ 1.0 A max. present whenever AC input is applied (Optional 2.0 A available)

Configured and controlled through I²C

Switching frequency

Output/Output isolation

External sync

250k Hz accepts external sync signal

> 1 Megohm, 500 V

TTL clock input signal used to adjust switching frequency. Frequency 500 kHz

20%; Duty cycle 40 - 55%

Can be controlled via I²C

** Controlled via I²C but requires load calibration

INTERNAL PART NUMBER REFERENCE TABLE

Part #

Description

iMP8 Case

iMP1 Case

iMP4 Case

Case Code

iMP8

73-580-0001i

73-690-0001i

73-540-0001i

iMP1

iMP4

advancedenergy.com

IMP

ENVIRONMENTAL SPECIFICATIONS

Operating temperature

Storage temperature

Electromagnetic susceptibility

Humidity

-40 °C to 70 °C ambient. Derate each output 2.5% per degree from 50 °C to 70 °C. (-20 °C start up)

-40 °C to +85 °C

Designed to meet EN61000-4; -2, -3, -4, -5, -6, -8, -11 Level 3

Operating; non-condensing 10% to 95% RH

Vibration

IEC68-2-6 to the levels of IEC721-3-2

MTBF demonstrated

> 550,000 hours at full load, 220 Vac and 25 °C ambient conditions

OUTPUT MODULE LINE-UP

—

Triple

36 W

2 A

Module Code

Module Type

Dual

Single

210 W

35 A

Single

360 W

60 A

Single

750 W

150 A

Single

1500 W

300 A

Max output power

144 W

10 A

Max output current

Output voltages available

Standard voltage increments

2 to 60 V 2 to 60 V 2 to 60 V 2 to 60 V

2 to 28 V

Yes

V1,V2,V3

Remote sense

Yes

Remote margin

V-Program - I²C Control

Active Current Share

Module Inhibit - I²C Control

Module Inhibit - Analog

Yes

Overvoltage/Overcurrent

protection

Yes

Minimum load required

Slots occupied in any iMP

case

advancedenergy.com

IMP

OUTPUT MODULE VOLTAGE/CURRENT*

I²C

Voltage

Code

Voltage

Single Output Module Code

Dual Output**

Triple Output

Adjustment

Ranges***

10 A

10 A*

10 A

9 A

8 A

—

10 A

10 A*

4 A

—

2 V

35 A

34 A

23 A

20 A

18 A

17 A

14 A

11 A

10.5 A

8.5 A

6.7 A

6.5 A

6.2 A

5.8 A

4.2 A

4.0 A

3.7 A

3.5 A

60 A

58 A

42 A

36 A

32 A

31 A

30 A

21 A

20 A

19 A

18 A

15 A

11 A

10.9 A

10 A

7.5 A

6.0 A

150 A

144 A

136 A

97.5 A

84.4 A

75 A

300 A

288 A

273 A

250 A

187.5 A

140 A

136.3 A

125 A

107 A

100 A

83.3 A

75 A

—

2 A

1 A

0.5 A

—

1.8 - 2.2

2.0 - 2.4

2.2 V

3 V

—

2.7 - 3.3

3.3 V

5 V

—

3.0 - 3.6

—

4.5 - 5.5

5.2 V

5.5 V

6.0 V

8.0 V

10 V

11 V

12 V

14 V

15 V

18 V

20 V

24 V

28 V

30 V

33 V

36 V

42 V

48 V

54 V

60 V

—

4.7 - 5.7

—

5.0 - 6.1

—

5.4 - 6.6

1 A

—

1 A

0.5 A

—

7.2 - 8.8

9.0 - 11.0

9.9 - 12.1

10.8 - 13.2

12.6 - 15.4

13.5 - 16.5

16.2 - 19.8

18.0 - 22.0

21.6 - 26.4

25.2 - 30.8

27.0 - 33.0

29.7 - 36.3

32.4 - 39.6

37.8 - 46.2

43.2 - 52.8

48.6 - 59.4

54.0 - 66.0

68 A

62.5 A

53.5 A

50 A

41.6 A

37.5 A

30 A

—

62.5 A

53.5 A

50 A

4 A

3 A

—

2 A

—

26.8 A

25 A

—

22.7 A

20.8 A

16 A

35.8 A

35.7 A

31.2 A

27.7 A

25 A

—

15.6 A

13.9 A

12.5 A

—

Contact Factory

Special*

35 A

20 A

60 A

36 A

150 A

80 A

300 A

140 A

—

10 A

8 A

2.3 - 2.6

3.7 - 4.4

6.7 - 7.1

* Increments of current not shown can be achieved by paralleling modules (add currents of each module selected).

**Total output power on dual model must not exceed 144 W.

*** For single output modules only.

Bold black lines reference lines indicate physical module groupings

advancedenergy.com

IMP

OUTPUT MODULE VOLTAGE/CURRENT* (CONTINUED)

Parallel Codes

Ordering Notes

iMP4

available slots

1. The cases and modules of both MP and iMP series can be inter-

changed to allow more flexibility. If intelligent modules are used

with non-intelligent cases, a numeric code “4” is placed at the end

of the module code (ex. 4LL0 becomes 4LL4).

iMP8

available slots

iMP1

available slots

2. USB to I²C module order code 73-769-001

0 = no parallel

1 = 1 & 2

2 = 2 & 3

3 = 3 & 4

4 = 4 & 5

5 = 3 & 4 & 5

6 = 5 & 6

7 = 4 & 5 & 6

8 = 6 & 7

9 = 3 & 4, 6 & 7

A = 1 & 2, 3 & 4, 5 & 6

C = 2 & 3, 4 & 5

E = 3 & 4, 5 & 6

F = 2 & 3, 4 & 5, 6 & 7

ORDERING INFORMATION

Case Size

Module/Voltage/Option Codes

First - Module Code

Case Option Codes

Software Code

Hardware Code

Second - Voltage Code

Third - Option Code

iMP1*

3L0 - 2E2 - 1Q1 - 4LL0

###

Software code

used for

configuration

change. “A” is

standard

Factory assembled

for hardware of

firmware mods.

Case Size (mm)

4 = 2.5” x 5” x 10”; 750 W - 1158 W,

Module Codes

Module/voltage/option codes

Module codes:

(None) = 36 W triple O/P (1 slot)

1 = 210 W single O/P (1 slot)

2 = 360 W single O/P (2 slot)

3 = 750 W single O/P (3 slot)

4 = 144 W dual O/P (1 slot)

5 = 1500 W single O/P (4 slot)

6 - 9 = future

Voltage Codes:

See Output Module Voltage/

Current table above

Option Codes:

0 = Standard

Case Option Codes

First digit

5 Slots

(63.5 x 127 x 254 mm)

8 = 2.5” x 7” x 10”; 1000 W - 1200 W,

6 Slots (63.5 x 177.8 x 254 mm)

1 = 2.5” x 8” x 11”; 1200 W - 1500 W,

7 Slots (63.5 x 203.2 x 279.4 mm)

0 - 9, A - Z parallel code

(See Parallel Codes table

above)

Second digit

0 = No options

1 = Reverse air

3 = Global enable

4 = Fan idle with inhibit

5 = Opt 1 + Opt 3

6 = Opt 1 + Opt 4

7 = Opt 3 + Opt 4

8 = Opt 1 +3 +4

* Note: Add “E” after iMP4 to denote IEC

input option.

e.g. iMP4E (Not available on iMP8 or iMP1)

1 = Module enable

2 = Constant current

3 = 1 & 2 combined

4 = Set for use in standard

(non-intelligent case)

5 = Shutdown mode for 1500 W

6 = 1 & 5 combined

9 = RS485 73-544-002

A = RS485 73-544-002 +

Reverse air

C = Opt 3 + Opt 9

D = CAN BUS 73-544-003

E = Opt 3 + Opt D

F = RS485 - MODBUS

73-544-005

7 - 9 = future

advancedenergy.com

IMP

ORDERING INFORMATION (CONTINUED)

Single

iMP4 (AC input on opposite side)

210 W

360 W

Input

180 - 264 Vac

1158 W max.

90 - 264 Vac

750 W max.

iMP4 = 2.5” x 5” x 10” 5 available slots

(63.5 x 127 x 254 mm)

iMP8 and iMP1

750 W

iMP1 only

Input

85 - 264 Vac

1000 W max.

180 - 264 Vac

1200 W max.

1500 W ( 2.0 to 8.0

iMP8 = 2.5” x 7” x 10” 6 available slots

(63.5 x 177.8 x 254 mm)

iMP1 = 2.5” x 8” x 11” 7 available slots

1200 W max.

1500 W max.

(63.5 x 203.2 x 279.4 mm)

1500 W ( 10 to 60 V)

1500 W with Bus Bar

Adapter Option (used with

the 10 to 60 V module)

Dual

Triple

144 W

36 W

advancedenergy.com

IMP

PIN CONNECTORS

Figure 1. AC Input

AC Input

Pin No.

Function

AC neutral

AC line (hot)

Chassis (earth) ground

PFC Input Connector (Control and signals）

Figure 2. Connector J1

Pin No.

Function

Input AC OK - “emitter”

Input AC OK - “collector”

Global DC OK - “emitter”

Global DC OK - “collector”

External Sync

Mates with

Molex 90142-0010 Housing

90119-2110 Pin

Global inhibit/optional enable logic “0”

Global inhibit/optional enable logic “1”

Global inhibit/optional enable return

+5 VSB housekeeping

Connector Kit Part No.:

70-841-004

Figure 3. Connector J2

+5 VSB housekeeping return

I²C Bus Output Connector

Pin No.

Function

No connection

Mates with

Landwin 2050S1000 Housing

2053T011V Pin

No connection

Serial clock signal (SCL)

Serial data signal (SDA)

Address bit 0 (A0)

Address bit 1 (A1)

Address bit 2 (A2)

Secondary return (GND)

5 Vcc external bus (5 VCC. Bus)

JST PHDR-10VS Housing

JST SPHD-002T-P0.5 (28-24)

JST SPHD-001T-P0.5 (26-22)

Connector Kit Part No.:

70-841-023

advancedenergy.com

IMP

MECHANICAL DRAWINGS

iMP Modules

Single 210 Waꢀ

.44” (11.2)

V+

DC-DC Converter Output Modules

Control Signal Information, J1 Control Connector

M4X8 SCREWS WITH CONICAL WASHER

V-

Pin No.

Function

+ Remote Sense

single or dual o/p main

single o/p

Remote Margin / V. Program

Margin High

V ADJ

single o/p

PIN 1

- Remote Sense / Margin Low

Spare

single or dual o/p main

DC OUTPUT CONNECTOR

.32"

(8.1)

Module, Isolated Inhibit

Module Inhibit Return

Current Share (SWP)

+ Remote Sense V2

- Remote Sense V2

single or dual o/p

Single 360 Waꢀ

.63”

V+

single or dual o/p main

dual o/p, single is spare

.33”

(8.5)

(16.0)

M 4 X 8 SCREWS

WITH CONICAL

WASHER

* Note: All iMP modules have a green DCOK LED. (except for 36 W module)

V-

PIN 1

Figure 4. Connector J1

V ADJ

Mates with

Molex 90142-0010 Housing

90119-2110 Pin

DC OUTPUT

CONNECTOR

.32”

(8.1)

Single 750 Waꢀ

Single 1500 Waꢀ 2-8 V

Single 1500 Waꢀ 10-60 V

59.3 ꢀ.ꢁ

.63"

(16.0)

V+

(3x) 31.6 ꢀ.ꢂ

.59"

(15.0)

11.3 ꢀ.ꢂ

ꢂ.1 ꢀ.ꢂ

(ꢁx) 15.ꢀ ꢀ.ꢂ

(ꢁx) 16.ꢀ ꢀ.ꢁ

DC OUTPUT CONNECTOR

PIN 1

(ꢁx) 16.ꢀ ꢀ.ꢁ

For Factory-Use Only

M4Xꢂ SCREWS W/

CONICAL WASHER (6X)

VADJ

V-

.32"

(8.1)

M4X8 SCREWS

(4X)

V ADJ

PIN 1

DC OUTPUT

CONNECTOR

V-

V+

Dual 144 Waꢀ _.46

Triple 36 Waꢀ

(11.7)

(4X)

V1 ADJ

V2 ADJ

V1 +

V1 -

V1+

V2+

V1-

V2-

V3-

V2 +

V2 -

.30 (7(.35X))

V3+

M3X8 SCREWS WITH SPRING WASHER

(4X)

V3 +

V3 -

V3 ADJ

1.17 (29.7)

.42 (10.7)

V2 ADJ

V1 ADJ

Mates with

Molex 09-91-0600 Housing

26-60-5060 Pin

.32

(8.1)

advancedenergy.com

IMP

IMP SERIES

iMP4 (750/1158 Watts Max)

5-Inch Case Size: iMP4: 2.5” x 5” x 10” (63.5 mm x 127 mm x 254 mm)

Weight: iMP4 Case: 3 lbs. • 360 W Single 1.0 lb. • 750 W Single: 1.6 lbs. 144 W Dual: 0.6 lb.

Notes:

1. Input: Barrier type. Three No. 6-32 B.H. screws (0.375” centers). Max torque: 6 in-lbs. (0.67 N-m). (Optional IEC input connector)

2. Control connectors: (J1) 10 position housing, gold plated contacts. Mates with Molex 90142-0010 housing with 90119-2110 crimp contacts (Molex C - Grid III Series). Connector

kit includes mating connector and 10 pins, Astec part #70-841-004. (J2) 10 position housing (Landwin 2051P1000T). Mates with housing 2050S1000 (Landwin) with 2053T011P

(Landwin) pins or JST PHDR-IOVS Housing and JST SPHD-002T-PO.5 pins.

3. Chassis material: aluminum with chemical film coating (conductive).

4. All dimensions are in millimeters and inches, and are typical.

5. Customer mounting -3 sides M4, bottom also includes 8-32 mounting holes. Max. penetration is 0.150” (3.8 mm). Max. torque: 5 in-lbs. (0.57 N-m).

6. Output module connections: All single O/P modules are M4 x 8 mm screws. Max. torque: 10 in-lbs. (1.13 N-m).

Dual O/P module is M3 x 8 mm screws. Max. torque: 5 in-lbs. (0.57 N-m).

10 advancedenergy.com

IMP

IMP SERIES (CONTINUED)

iMP8 (1000/1200 Watts Max)

7-Inch Case Size: iMP8: 2.5” x 7” x 10” (63.5 mm x 177.8 mm x 254 mm)

Weight: iMP8 Case: 4.1 lbs. • 210 W Single: 0.6 lb. • 360 W Single: 1.0 lb. 750 W Single: 1.6 lbs. 144 W Dual: 0.6 lb.

Notes:

1. Input: Barrier type. Three No. 6-32 B.H. screws (0.375” centers). Max torque: 6 in-lbs. (0.67 N-m).

2. Control connectors: (J1) 10 position housing, gold plated contacts. Mates with Molex 90142-0010 housing with 90119-2110 crimp contacts (Molex C - Grid III Series)

Connector kit includes mating connector and 10 pins, Astec part #70-841-004. (J2) 10 position housing (Landwin 2051P1000T). Mates with housing 2050S1000 (Landwin) with

2053T011P (Landwin) pins or JST PHDR-IOVS Housing and JST SPHD-002T-PO.5 pins.

3. Chassis material: aluminum with chemical film coating (conductive).

4. All dimensions are in millimeters and inches, and are typical.

5. Customer mounting -3 sides M4, bottom also includes 8-32 mounting holes. Max. penetration is 0.150” (3.8 mm). Max. torque: 5 in-lbs. (0.57 N-m).

6. Output module connections: All single O/P modules are M4 x 8 mm screws. Max. torque: 10 in-lbs. (1.13 N-m).

Dual O/P module is M3 x 8 mm screws. Max. torque: 5 in-lbs. (0.57 N-m).

advancedenergy.com

IMP

IMP SERIES (CONTINUED)

iMP1 (1200/1500 Watts Max)

8-Inch Case Size: iMP1: 2.5” x 8” x 11” (63.5 mm x 203.2 mm x 279.4 mm)

Weight: iMP1 Case: 5.0 lb. • 210 W Single: 0.6 lb. • 360 W Single: 1.0 lb. 750 W Single: 1.6 lb. • 144 W Dual: 0.6 lb.

M4 MOUNTING HOLES (4X)

IDENTICAL BOTH SIDES

171.45

38.10

#8-32 MOUNTING HOLES

(4X) MARKED AS

171.45

177.8

M4 MOUNTING HOLES (4X)

MARKED AS

19.05

Notes:

1. Input: Barrier type. Three No. 6-32 B.H. screws (0.375” centers). Max torque: 6 in-lbs (0.67 N-m).

2. Control connectors: (J1) 10 position housing, gold plated contacts. Mates with Molex 90142-0010 housing with 90119-2110 crimp contacts (Molex C - Grid III Series). Connector

kit includes mating connector and 10 pins, Astec part #70-841-004. (J2) 10 position housing (Landwin 2051P1000T). Mates with housing 2050S1000 (Landwin) with 2053T011P

(Landwin) pins or JST PHDR-IOVS Housing and JST SPHD-002T-PO.5 pins.

3. Chassis material: aluminum with chemical film coating (conductive).

4. All dimensions are in millimeters and inches, and are typical.

5. Customer mounting -3 sides M4, bottom also includes 8-32 mounting holes. Max. penetration is 0.150” (3.8 mm). Max. torque: 5 in-lbs. (0.57 N-m).

6. Output module connections: All single O/P modules are M4 x 8 mm screws. Max. torque: 10 in-lbs.

(1.13 N-m). Dual O/P module is M3 x 8 mm screws. Max. torque: 5 in-lbs. (0.57 N-m).

12 advancedenergy.com

IMP

OPTIONAL CANBUS OR RS485 INTERFACE

The RS485/CAN-to-I²C uses 2 Input

Protocols and 1 Output Protocol.

The Input Protocols used are RS485

Slave/Server Device(s)

Adapter

using Modbus (Command Index:

0x01), and CAN using modified Modus

(Command Index: 0x02).

Output Protocols

I²C with SMBus

Support

The Output Protocol use is: I²C with

SMBus support (Command Index: 0x80).

Adapter Protocol

Input Protocols

Adapter Controls

Adapter Command

RS485 using

Modbus

CAN using

Modiꢀed Modbus

Master/Client Device(s)

RS485/CAN - to - I²C

For detailed info, download the Software Requirements

Specification (SRS) from https://www.artesyn.com/assets/software requirement_specifica_1248401123.pdf

iMP CAN RS485

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

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-IMP-235-01 05.17.21

MP1-2E-1L-1L-1N-1Q-1Q-00 [ARTESYN]

相关型号：

SI9130DB

SI9135LG-T1

SI9135LG-T1-E3

SI9135_11

SI9136_11

SI9130CG-T1-E3

SI9130LG-T1-E3

SI9130_11

SI9137

SI9137DB

SI9137LG

SI9122E