MBC600_技术文档

The MBC600 Series of open frame power supplies feature a wide

universal AC input range of 90 – 277 VAC, offering 600 W of output

power in a compact footprint.

The MBC Series is designed and approved to the latest medical

standards (EN/IEC 60601-1), providing 2 x MOPP isolation for Class I

& Class II applications.

These power supplies are ideal for medical, telecom, datacom,

industrial equipment and other applications.

600 W standard, 420 W convection cooled

Size: 5.0” x 8.0” x 1.6” (127.0 x 203.2 x 40.6 mm)

High efficiency up to 94.0%

•

Universal input voltage range: 90-277 VAC

Active power factor correction (PFC)

Less than 5 W dissipation at standby mode

Parallel operation with active current sharing

Digital control for circuit loop and power management

Fully protected (OTP, OCP, OVP, SCP)

Power Management Bus for control, programming and monitoring

Designed to meet Class B per CISPR 22 and EN 55022

CE marked LVD

Diagnostic Equipment

Drug Pump

Home Health Care

Monitoring Devices

Imaging Equipment

Hospital Beds

•

Dialysis

Ultrasound

Surgical Device

Therapy Devices

2

MBC600 Series

MBC600-1012G

12 V

24 V

48 V

12 V

5 V

35.0 A

17.5 A

8.8 A

1.0 A

50.0 A

25.0 A

12.5 A

1.0 A

0 A

1%

2%

± 2%

± 20%

± 2%

MBC600-1024G

MBC600-1048G

V_fan(all models)

V_sb(all models)

1.0 A

NOTES:

1. Peak current rating on V1 (main output) is 120% of max, lasting 3 seconds with max of 10% duty cycle.

2. Combined output power of V1 plus fan supply and standby supply should not exceed max power rating.

3. +/-20% tolerance of V_fanincludes the factors of set point accuracy, line and load regulation.

4. Air flow over long edge (either direction) required for air flow rating. See mechanical drawing.

5. More than 800K hours MTBF is to be calculated according to Bellcore TR-332 standard current edition at 25 ºC.

The MBC600 SERIES AC-DC/DC-DC power supply can operate using AC or DC input. It is a highly efficient front-end power supply.

The PFC stage adopts an analog controller in continuous conduction mode to achieve high power factor and high efficiency. The

DC/DC stage is fully DSP controlled and employs soft switching resonant techniques in conjunction with synchronous rectification

for high efficiency and better thermal control. With a wide input operational voltage range and minimal linear derating of output power

with temperature, the MBC600 SERIES maximizes power availability in demanding server, network, and other high availability

applications. The supply is convection cooled or fan cooled and ideally suited for integration with a matching airflow path. An active

OR-ing MOSFET on the output ensures no reverse current and renders the supply ideally suited for operation in redundant power

systems. The always-on standby output V_sb(5 Volts) provides power to external power distribution and management controllers. It is

protected with an active OR-ing diode for maximum reliability. In addition, the Power Management Bus allows full monitoring of the

supply, including input and output voltage, current, power, and internal temperatures. Current share signal (V1_I_share) is used for current

sharing, and the difference between two units is within 2.5 A if system load is more than 25% of full load. The current share signal

(V1_I_share) voltage shall be a linear function Vcs = 8 x I_out/I_maxfor a single power supply. Example: for MBC600-1012G, VCS is 8 V at 50

A loading; I_maxis 50 A of MBC600-1012G.

Figure 1. MBC600 Series Block Diagram

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3

MBC600 Series

General Condition: T_amb= -25 to 70°C unless otherwise noted.

90

100-250

277

240

9

VAC

VDC

Arms

Apk

Hz

V_in

Input Voltage Ranges

Universal Input

120

I_{in max}

I_inrush

Fi

Max Input Current

Inrush Current Limitation

Input Frequency

V_in= 90 VAC / 60 Hz, Full load

V_{i min}to V_{i max}

,

20

63

1

47

50/60

0.99

91.0

94.0

93.0

PF

Power Factor

V_{in nom}, 50 Hz, > 50% full load.

0.95

V_in= 230 VAC, 20% of Full load, T_amb= 25°C

V_in= 230 VAC, 50% of Full load, T_amb= 25°C

V_in= 230 VAC, 100% of Full load, T_amb= 25°C

V_in= 120 VAC, T_amb= 25°C, if diable V1

V_in= 277 VAC, T_amb= 25°C, Input to Earth

η

Efficiency without Fan

%

P_min

Min Power at no Load

Leakage Current

5

W

I_leakage

250

300

µA

V_in= 230 VAC, Full load, V_sbwithin regulation, stay

within 90%*V_1nomfrom AC zero point

T_hold

Hold-up Time

16

ms

General Condition: Tamb = -25 to 70°C unless otherwise noted.

Main Output V₁

V_{1 set}

Output Set Point Accuracy

Nominal Output Voltage

0.5 ∙I_{1 nom}, T_amb= 25°C

-0.5

+0.5

+2

% V_{1 nom}

VDC

Refer to ordering information table as

above

V_{in min}to V_{in max}, 0 to 100% I_{1 nom}, T_{amb min}

to T_{amb max}

V₁output voltage could be adjusted with

the potentiometer or I2C protocol

V_{1 nom}

V_{1 total reg}

V_adj

Total Regulation

-2

% V_{1 nom}

Voltage Adjustment

+/-10

v_{1 pp}

Output Ripple Voltage

Load Regulation

Line Regulation

V_{1 nom}, I_{1 nom}, 20 MHz BW #1

Vi = V_{i nom}, 0…100% I1 nom

V_i=V_{i min}…V_{i max}

1

2

% V_{1 nom}

A

V_{1 Load reg}

V_{1 Line reg}

1

Current Sharing

abs (I1-I2), between any two units in

parallel)

2.5

3.5

+5

5

when Bus load ≥ 25% of full load

when Bus load <25% of full load #2

I_share

A

V_{1 dyn}

T_{v1 rec}

Dynamic Load Regulation

Recovery Time

-5

% V_{1 nom}

ms

50 to 100% of load change, 50 Hz, 50%

duty cycle, 1 A/us

0.5

V₁

Overshoot

V1 overshoot at turn-on

Capacitive Loading

1

%

μF

C_{v1 Load}

T_amb= 25°C, C_Load= 220 uF/A*I_1norm

Standby Output V_sb

V_{sb nom}

Nominal Output Voltage

5

VDC

V_{sb min}to V_{sb max}, 0 to 100% I_{sb nom}, T_amb

_minto T_{amb max}

V_{sb total reg}

Total Regulation

-2

+2

% V_sb

P_{sb nom}

V_{sb pp}

Nominal Output Power

Output Ripple Voltage

V_sb= 5 VDC

W

V_{sb nom}, I_{sb nom}, 20 MHz BW

100

mV

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MBC600 Series

V_{sb Load reg}

V_{sb Line reg}

I_{sb max}

V_{sb dyn}

T_{sb rec}

Load Regulation

V_sb= V_{sb nom}, 0…100% I_{sb nom}

V_sb=V_{sb min}…V_{sb max}

2

% V_sb

% I_sb

% V_sb

ms

Line Regulation

Current Limitation

Dynamic Load Regulation

Recovery Time

Constant current limit then hiccup

120

-5

150

+5

5

50 to 100% of load change, 50 Hz, 50%

duty cycle, 1 A/us

0.5

μF

C_{sb Load}

Capacitive Loading

T_amb= 25°C

220

Fan Output V_fan

V_{fan nom}

Nominal Output Voltage

12

VDC

V_{fan min}to V_{fan max}, 0 to 100% I1 nom,

T_{amb min}to T_{amb max}

V_fan= 12 VDC, Power darating linearly to

50% at 70°C, refer to figure 2

V_{fan total reg}

Total Regulation

-20

-5

+20

2

% V_{fan nom}

P_{fan nom}

Nominal Output Power

W

V_{fan pp}

Output Ripple Voltage

Current Limitation

V_{fan nom}, I_{fan nom}, 20 MHz BW

% V_{fan nom}

% I_{fan nom}

% V_{fan nom}

ms

I_{fan max}

Vf_{an dyn}

T_{fan rec}

C_{fan Load}

T_amb= 25°C

270

0.5

Dynamic Load Regulation

Recovery Time

+5

5

50 to 100% of load change, 50 Hz, 50%

duty cycle, 1 A/us

μF

Capacitive Loading

T_amb= 25°C

220

NOTES:

1.

The output noise and ripple measurement was made with 20 MHz bandwidth using a 6 inch twisted pair, terminated with a 10 uF

tantalum capacitor in parallel with a 0.1 uF ceramic capacitor.

2.

For MBC600-1048G, the current share abs (I1-I2) should be less than 3 A at light load (< 25% of full load)

Figure 2. Output Power vs. Temperature

NOTE: Power darating linearly to 50% at 70ºC for the output including main output V1, Vfan.

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5

MBC600 Series

F

Input Fuses (L+N)

Input Over Voltage Limit

Recovery

Not user accessible, slow-acting (F)

10

/

A

V

285VAC/245VDC

280VAC/240VDC

295VAC/255VDC

290VAC/250VDC

V_{in ov}

/

Input Under Voltage

Limit

75VAC/105VDC

80VAC/110VDC

110

/

85VAC/115VDC

90VAC/120VDC

132

V

V_{in uv}

Recovery

V1 will be latched until reset by AC

input or INHIBIT signal.

V_sbwill be latched until reset by AC

input or INHIBIT signal.

Over current limit meets below curve,

Figure 3

V_{1 ov}

V_{sb ov}

I_{1 lim}

OV Threshold V₁

%V_{1 norm}

%V_{sb norm}

OV Threshold V_sb

Current Limit V₁

110

120

Standby output will be entered into CC

mode if output current is above 1.2 A

I_{sb lim}

I_{fan lim}

T_SD

Current Limit V_sb

Current Limit V_fan

1.2

2

A

T_amb= 25°C

2.7

Over Temperature on

Heat Sinks

No damage, Automatic shut-down and recovers.

The Output is protected against an overload or a Short Circuit for indefinite duration. The unit shall meet this requirement when in

general operating conditions. Over current limit should meet below curve within +/-1.5 A tolerance, and the unit is allowed to

hiccup under over current conditions.

Figure 3. Over Current Mode

Bel Power Solutions provides with its “Bel Power Solutions I2C Utility” a Windows® XP/Vista/Win7 compatible graphical user

interface allowing the programming and monitoring of the ABC600 Series Front-End. The utility can be downloaded on

www.belpowersolutions.com and supports both the PSMI and Power Management Bus protocols.

The GUI allows automatic discovery of the units connected to the communication bus and will show them in the navigation tree. In

the monitoring view the power supply can be controlled and monitored.

Reference Documents:

▪

BCA.00029_AA_ABC600 Series Power Management Bus Communication Manual.pdf

Power Management Bus Specification Part I Revision 1.1

Power Management Bus Specification Part II Revision 1.1

System Management Bus (SMBus) Specification Revision 2.0

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MBC600 Series

Figure 4. I2C Bus to DSP

The sensor commands shall meet the following accuracy requirements:

READ_IIN

< 0.5 A

+/-5%

+/-20%

+/-2.5 A

It is for corresponding to max input current

It is for corresponding to max output current

READ_IOUT

READ_VIN

+/-3%

+/-2%

+/-2.5 V

+/-2%

It is for corresponding to max input voltage

READ_VOUT

READ_PIN

- - -

+/-20%

+/-5%

It is for corresponding to max input power

It is for corresponding to max output power

READ_POUT

+/-5 %

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7

MBC600 Series

Unless defined otherwise, all control signals shall be TTL compatible with respect to the output return and shall be isolated from

the primary circuit and be SELV rated. All input signals shall be driven from an open collector with the pull-up resistor located in the

power supply and shall be capable of sourcing up to 4 mA. Unless otherwise specified, signal levels for parameters listed in the

table below are general LVTTL signals.

A0, A1

Power Management Bus selected address Pin.

SDA, SCL

SDA is serial data signal and SCL is serial clock signal (I²C).

Output alert signal. It shall be an open collector with the pull-up resistor located at the receiving end. This signal

will be asserted due to fault or warning events. High = Normal, Low = Alert, Refer to Figure 5.

Current share signal. The PSU can operate at redundant mode by connecting V1_Ishare signal of each power

supply together.

SMB_ALERT_L

V₁_I_share

V₁_VS_SENSE,

V₁_VS_SENSE_RTN

Remote Sense signal for V1, V1_VS_SENSE is positive sense, V1_VS_SENSE_RTN is negative sense.

V_sb, SGND

V_sbis standby output, and SGND is secondary ground.

+VP

Source voltage located at receiving end. Provide a voltage for power good signal. Refer to Figure 6.

Output power good signal. It is isolated from the output. Goes high/low when output is within regulation. Refer to

Figure 6 (two methods for Power Good connection).

PW_OK_H

Power up signal. It is isolated from the output. Apply a DC voltage between INHIBIT_ L and INHIBIT_L_RTN can

power up the unit. Refer to Figure 6.

INHIBIT_L, INHIBIT_L_RTN

V_fan, SGND

V_fanis fan output to provide energy for user, and SGND is secondary ground.

Figure 5. SMB_ALERT_L Connections

Figure 6. Isolated Signal Output Connections

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MBC600 Series

Output High Voltage

V_oh

V_ol

2.4

0

3.6

0.4

3.6

0.8

4

V

Output Low Voltage

Input High Voltage

V_ih

2.0

0

V

Input Low Voltage

V_il

V

Sink current(PW_OK_H)

I_sink

V_ope

I_ope

mA

V

2.0

10

30

Operate voltage (between INHIBIT_L and INHIBIT_L_RTN)

Max operate current (SMB_ALERT_L)

mA

Table 1. Low-Voltage TTL (LVTTL) Voltage Levels

T1 (Tv_out_rise)

Output voltage rise time from each output

0.5

100

2500

3000

ms

T2 (TVAC_on_v_sbon

)

Delay from AC being applied to V_sbbeing within regulation

Delay from AC being applied to V1 being within regulation

Time V1 stay within 90% normal output after loss of AC

Delay from loss of AC to de-assertion of PW_OK_H

T3 (TVAC_on_v_1on

T4 (Tv1_holdup)

T5 (T_pwok_holdup)

)

16

10

T6 (TinhibitL_v_1on

)

Delay INHIBIT_L active to V1 output voltages within regulation

Delay from INHIBIT_L de-active to PW_OK_H being de-asserted

Delay from V1 within regulation to PW_OK_H asserted at turn on

1000

50

T7 (TinhibitL_pwok)

T9 (Tv_1on_pwok)

100

1

1000

Delay from PW_OK_H de-asserted to V1 dropping out of regulation at 60%

loading of full load

T10 (Tpwok_off_V1)

ms

T11 (Tpwok_off_V_sb)

T12 (Tv_sb_v1)

Delay from PW_OK_H de-asserted to V_sbdropping out of regulation

20

50

ms

Delay from V_sbbeing in regulation to V1 being in regulation at AC turn on

1000

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9

MBC600 Series

Operating Temperature

Storage Temperature

See derating charts above Figure 2, T_{amb min}=-25°C, T_{amb max}= 70°C

-25 to 70°C

-40 to 85°C

Operating humidity:

Non-operating humidity, non-condensing

Operating:

5%-90%

5%-95%

10,000 ft.

40,000 ft.

Relative Humidity

Altitude

Non-operating:

CE Mark

Complies with LVD Directive

Conducted Emissions:

Static Discharge

EN55022-B, CISPR22-B, FCC PART15-B

EN61000-4-2, Level-3

Criterion B

Criterion A

Criterion B

Criterion A

Criterion B

Criterion A

RF Field Susceptibility

Fast Transients/Bursts

Radiated Emissions

Surge Susceptibility

RF Immunity

EN61000-4-3, Level-3

EN61000-4-4, Level-3

EN55022-B, CISPR22-B, FCC PART15-B

EN61000-4-5, Level-3

EN61000-4-6, Level-3

Magnetic Fields

EN61000-4-8, Level-4

Voltage Interruptions

Harmonic Current

Voltage Fluctuations / Flicker

EN61000-4-11

EN61000-3-2, Level A

EN61000-3-3

Operating: Random vibration; 5 to 500 Hz (10 minutes, each axis).

Non-Operating: Random vibration; 5 to 500 Hz (10 minutes, each axis).

Operating: half-sine, 11 ± 3 ms 3-axis.

Non-Operating: half-sine, 11 ± 3 ms 3-axis.

Max. 2.4Grms

Max. 6Grms

Max. 15G

Vibration

Shock

Max. 40G

Maximum electric strength testing is performed according to IEC/EN 60601, ES/CSA60601-1. 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.

Approved to the latest edition of the following

standards: CSA/UL60601-1, EN60601-1 and

IEC60601-1.

Approved by independent body

(see CE Declaration)

Agency Approvals

ANSI/AAMI ES60601-1, 2 X MOPP

Input (L/N) to case (PE)

Input (L/N) to output

Basic

Reinforced

Isolation Strength

Output to case (PE)

Primary (L/N) to protective earth (PE)

Primary to secondary

Functional

Min 4.0/2.5 mm

Min 8/5 mm

Creepage / Clearance

Electrical Strength Test

Input to case

Input to output

Output and Signals to case

1781/2519 VAC/VDC

4607/6516 VAC/VDC

500 VDC

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MBC600 Series

J101-1 = Live

J101-2 = Live

Molex 09-50-3051 or

equivalent

Molex 08-50-0105 or

equivalent

J101

J101-3 = not fitted

J101-4 = Neutral

J101-5 = Neutral

J102-1: A0

AWG#18~16

J102-2: A1

J102-3: SDA

J102-4: SCL

J102-5: SMB_ALERT_L

J102-6: V1_I_share

J102-7: V1_VS_SENSE

J102-8: V1_VS_SENSE_RTN

J102-9: SGND

JST SPHD-001T-P0.5 or

equivalent

J102

JST PHDR-16VS or equivalent

AWG#22~26

J102-10: V_sb

J102-11: +VP

J102-12: PW_OK_H

J102-13: INHIBIT_L

J102-14: INHIBIT_L_RTN

J102-15: V_fan

J102-16: SGND

Molex 19002-0024 or

equivalent

Molex 0190670067 or

J103

J103: EARTH

NA

AWG#16

AWG#6

J107 = V1_VS_RTN

J106 = V1_VS

Output terminal J106/J107

equivalent

Dimensions (L x W x H)

203.2 x 127 x 40.64 mm

(Location/Hardware); Dimensions Drawing Figure 7

Mounting

Input

Connector type: Molex 26-62-4056 or equivalent; (J101); Figure 7

Connector type: M4 screw terminal; (J106/107); Figure 7

Connector type: AMTEK 2211MS-208GW-U; (J102); Figure 7

Output

Signal

Outline Drawing

Pins/Functions

See Mechanical Drawing/ Figure 7

0.9 kg

Weight

Distance from top of the components (component side) to the customer's metal chassis – Natural

cooling: 101.6 mm

Mounting distance

Distance from top of the components (component side) to the customer's metal chassis – Force

cooling: 5 mm¹

1

5 mm is not required if there is insulator between PSU and customer chassis.

I²C Utility

Windows XP/Vista/7 compatible GUI to

program, control and monitor PET Front-

Ends (and other I²C units)

N/A

belfuse.com/power-solutions

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11

MBC600 Series

Label

157.5

6.35

Note: A 3D step file of power

supply casing is available on quest

or

Airflow Direction

J102

J103

J101-5

J101

J106

J107

J101-1

203.2 ±0.5

190.5

6.35

M3X0.5P Thread Hole

for customer system mounting;

Mounting screw insert into

PSU chasis 5.0mm Max.

(2 holes on each side)

A

9.6

188.5

A-A

Customer side

mounting screw insert

into PSU chasis

5.0mm max.

M3X0.5P Thread Hole

for customer system mounting;

(6 holes on bottom side)

41.6

53.9

A

5.1

193

Figure 7. Mechanical Drawings

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.

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BCD.00496_AC


型号：	MBC600
厂家：	BEL FUSE INC.
描述：	600 W standard, 420 W convection cooled
文件：	总11页 (文件大小：713K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MBC600 [BEL]

相关型号：

MBC600-1012G

MBC600-1024G

MBC600-1048G

MBC75

MBC75-1012L

MBC75-1015L

MBC75-1024L

MBC75-1030L

MBC75-1048L

MBC75-1058L

MBC75-1T12L

MBC75-1T15L