MHP1000PS12

- Medical Safety Approvals 

- End Fan, Top Fan & ‘U’Channel Mechanical Options 

- -20 ºC to +70 ºC Operation 

- 5 V Standby 

- AC OK, Remote On/Off and Active Current Share 

- Load Dependant Variable Fan Speed 

- Screw Terminals 

- 3 Year Warranty 

The MHP650 AC-DC power supply provides upto 650 W of output power in three mechanical packages to provide installation flexibility in a range of medical applications. 

The unit comprises of a main output with voltages from 12-48 VDC and two peripheral outputs providing a 12 VDC fan supply and a 5 VDC standby supply which can be utilitsed with the signals and control features of the unit to provide detection of loss of AC input and remote on/off control. 

Multiple units can used in parallel via the current share facility, providing higher power solutions. Inherently low earth leakage current, and conducted EMC compliance to Class B also simplify higher power system design. 

Packaged in a compact 8” (203 mm) x 4” (102 mm) x 2.6” (65 mm) and carrying IEC60601 family safety approvals, the MHP650 has a load dependant variable speed fan, is fully protected with overtemperature shutdown and provides full power from -20 ºC to 50 ºC and 50% power at +70 ºC. 

xppower.com 

## Models and Ratings 

End Fan Models (-EF) 

|Output Voltage V1<br>Max Output<br>Current V1<br>Fan Supply V2<br>Standby Supply V3<br>Max Output Power<br>Model Number<br>12 V<br>50.0 A<br>Not Available<br>5 V / 0.2 A<br>607 W<br>MHP650PS12-EF<br>15 V<br>40.0 A<br>Not Available<br>5 V / 0.2 A<br>607 W<br>MHP650PS15-EF<br>24 V<br>27.0 A<br>Not Available<br>5 V / 0.2 A<br>657 W<br>MHP650PS24-EF<br>28 V<br>23.0 A<br>Not Available<br>5 V / 0.2 A<br>651 W<br>MHP650PS28-EF<br>36 V<br>18.0 A<br>Not Available<br>5 V / 0.2 A<br>657 W<br>MHP650PS36-EF<br>48 V<br>13.5 A<br>Not Available<br>5 V / 0.2 A<br>657 W<br>MHP650PS48-EF<br>~~7a~~|
|---|
|Top Fan Models (-TF)|
|Output Voltage V1<br>Max Output<br>Current V1<br>Fan Supply V2<br>Standby Supply V3<br>Max Output Power<br>Model Number<br>12 V<br>~~50.~~0 A<br>Not Available<br>5 V / 0.2 A<br>607 W<br>MHP650PS12-TF<br>15 V<br>40.0 A<br>Not Available<br>5 V / 0.2 A<br>607 W<br>MHP650PS15-TF<br>24 V<br>27.0 A<br>Not Available<br>5 V / 0.2 A<br>657 W<br>MHP650PS24-TF<br>28 V<br>23.0 A<br>Not Available<br>5 V / 0.2 A<br>651 W<br>MHP650PS28-TF<br>36 V<br>18.0 A<br>Not Available<br>5 V / 0.2 A<br>657 W<br>MHP650PS36-TF<br>48 V<br>13.5 A<br>Not Available<br>5 V / 0.2 A<br>657 W<br>MHP650PS48-TF<br>~~7a~~|
|U Channel Models|
|Output Voltage V1<br>Max Output<br>Current V1<br>Fan Supply V2<br>Standby Supply V3<br>Max Output Power(1)<br>Model Number<br>12 V<br>50.0 A<br>12 V / 0.5 A<br>5 V / 0.2 A<br>601 W<br>MHP650PS12<br>15 V<br>40.0 A<br>12 V / 0.5 A<br>5 V / 0.2 A<br>601 W<br>MHP650PS15<br>24 V<br>27.0 A<br>12 V / 0.5 A<br>5 V / 0.2 A<br>651 W<br>MHP650PS24<br>28 V<br>23.0 A<br>12 V / 0.5 A<br>5 V / 0.2 A<br>655 W<br>MHP650PS28<br>36 V<br>18.0 A<br>12 V / 0.5 A<br>5 V / 0.2 A<br>651 W<br>MHP650PS36<br>48 V<br>13.5 A<br>12 V / 0.5 A<br>5 V / 0.2 A<br>651 W<br>MHP650PS48<br>~~=a~~|
|1. U Channel models require a minimum of 5.5 ms airflow from the system for cooling|
|Input Characteristics|
|Characteristic<br>Minimum<br>Typical<br>Maximum<br>Units<br>Notes & Conditions<br>Input Voltage - Operating<br>85<br>115/230<br>264<br>VAC<br>Derate outputpower < 90 VAC. See fig. 1.<br>Input Frequency<br>47<br>50/60<br>63<br>Hz<br>Power Factor<br>>0.9<br>EN61000-3-2 class A compliant<br>Input Current - No Load<br>0.15/0.3<br>A<br>115/230 VAC<br>Input Current - Full Load<br>6.5/3.2<br>A<br>115/230 VAC<br>Inrush Current<br>40<br>A<br>230 VAC cold start,25 °C<br>Earth Leakage Current<br>90/175<br>250<br>µA<br>115/230 VAC/50 Hz(Typ.),264 VAC/60 Hz(Max.)<br>Input Protection<br>T16 A / 250 V internal fuse in both line and neutral<br>~~Po~~|
|Input Derating Curve|
|Figure 1<br>40<br>50<br>80<br>60<br>70<br>90<br>100<br>Output Power (%)<br>~~=~~|



85 90 264 Input Voltage (VAC) 

2 

xppower.com 

## Output Characteristics 

**==> picture [524 x 190] intentionally omitted <==**

**----- Start of picture text -----**<br>
Characteristic Minimum Typical Maximum Units Notes & Conditions<br>CG Output Voltage - V1 12 48 VDC See Models and Ratings table<br>Initial Set Accuracy ±1 [(V1) ] , ±5 [(V3)] % 50% load, 115/230 VAC<br>RnGG<br>GG Output Voltage Adjustment ±10 % V1 only. See mechanical details.<br>GGG Minimum Load 0 A<br>Start Up Delay 0.5 s 230 VAC full load<br>ReGG<br>Hold Up Time 20 ms<br>RnGG<br>Drift ±0.2 % After 20 min warm up<br>Ge Line Regulation ±0.5 GO % 90-264 VAC<br>CGO Load Regulation ±1 [(V1) ] , ±5 [(V3)] % 0-100% load.<br>Recovery within 1% in less than 500 µs<br>Transient Response - V1 4 %<br>for a 50-75% and 75-50% load step<br>GG Ripple & Noise 1 % pk-pk V1: 20 MHz bandwidth<br>CG Overvoltage Protection 115 140 % Vnom DC. Output 1 only, recycle input to reset<br>CG Overload Protection 110 145 % I nom Output 1 only, auto reset. See fig 2.<br>Ce Short Circuit Protection GO Auto Recovery, hiccup mode<br>GGG Temperature Coefficient 0.02 %/˚C<br>Overtemperature Protection °C Protects unit from overtemperature. Auto reset.<br>Re es fe GG<br>**----- End of picture text -----**<br>


## Output Overload Characteristic 

**==> picture [49 x 18] intentionally omitted <==**

**----- Start of picture text -----**<br>
Unit enters<br>hiccup mode<br>**----- End of picture text -----**<br>


**==> picture [213 x 18] intentionally omitted <==**

**----- Start of picture text -----**<br>
Figure 2<br>Typical V1 Overload Characteristic (MHP650PS12 shown)<br>**----- End of picture text -----**<br>


3 

xppower.com 

## General Specifications Xxxxxxxxxx 

**==> picture [506 x 107] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||
|---|---|---|---|---|---|
|Characteristic|Minimum|Typical|Maximum|Units|Notes & Conditions|
|Efficiency|84|%|See fig 3 & 4|
|Isolation: Input to Output|4000|VAC|
|Input to Ground|1500|VAC|
|Output to Ground|500|VDC|
|Switching Frequency|70/200|kHz|PFC converter / Main converter|
|Power Density|8.2|W/in|[3]|
|Mean Time Between Failure|260|kHrs|MIL-HDBK-217F at 25 °C GB|
|Weight|2.8 (1.25)|lb (kg)|See mechanical details|

**----- End of picture text -----**<br>


## Efficiency vs Load 

MHP650PS12 Figure 3 

MHP650PS48 Figure 4 

## Signals & Control 

**==> picture [510 x 122] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||
|---|---|
|Characteristic|Notes & Conditions|
|Signals & Control|
|Remote Sense|Compensates for 0.5 V total voltage drop|
|Open collector referenced to negative sense, transistor normally off when AC is good (see fig. 5 & 8)|
|AC OK / Power Fail|
|AC OK: Provides|≥ 5 ms warning of loss of output from AC failure|
|Remote On/Off (Inhibit/Enable)|Uncommited isolated optocoupler diode, powered diode inhibits both V1 & V2 (fan supply) (see fig.6 & 9)|
|When more than one unit (with the same output voltage) is used in parallel to increase output current, the|
|current share pins 5/6 of one unit should be connected to pins 5/6 of the other unit(s). This will force the|
|Current Share|
|current to share between the outputs. Similarly pins 2/4 of each unit should also be connected as a ground|
|reference. Units share current within 10% of each other at full load. See fig 7.|
|Standby Supply V3|Isolated 5 V/0.2 A supply, always present when AC supplied.|

**----- End of picture text -----**<br>


4 

xppower.com 

## Signals & Control 

## AC OK/Power Fail 

Figure 5 

**==> picture [456 x 393] intentionally omitted <==**

**----- Start of picture text -----**<br>
POWER SUPPLY<br>i] 5 V Standby<br>I Pin 9 330R<br>|<br>Max 12 V 20 mA<br>AC OK Collector<br>Pin 3<br>I<br>]<br>| Transistor On (<0.8 V):<br>i] AC NOT OK<br>| AC OK Emitter  Transistor Off (>4.5 V):<br>I Pin 2 (-sense) AC OK<br>I<br>| 5 V Standby<br>| Return Pin 10<br>|<br>J3 Logic Connector ]<br>Remote On/Off (Inhibit)<br>INHIBIT HI INHIBIT LOW<br>800 R POWER SUPPLY 800 R POWER SUPPLY<br>PO 5 V Standby  i 5 5 V Standby<br>Pin 9 Pin 9<br>2-5 mA | 100 R 2-5 mA<br>100 R<br>Inhibit Hi<br>Pin 7 | Inhibit Hi [O-___]]<br>| Pin 7<br>| AA val<br>sistor On (<0.8 V):  “A “AA<br>NOT OK<br>OKsistor Off (>4.5 V):  Inhibit LoPin 8 | Inhibit LoPin 8<br>O<br>5 V Standby<br>O+TT H | 5 V Standby  O+TT H Return Pin 10<br>Return Pin 10<br>O ©<br>Io Chassis J3  LL Logic  LLL Connector Lt Pee Chassis J3 Logic  LLL Connector<br>Signal    High: Power Supply OFF Signal  High: Power Supply ON<br>              Low or Floating: Power Supply ON Low or Floating: Power Supply OFF<br>**----- End of picture text -----**<br>


## Remote On/Off (Inhibit) 

Figure 6 

## Signals  -  Parallel Load & Current Share Connection Example 

Figure 7 

**==> picture [205 x 138] intentionally omitted <==**

**----- Start of picture text -----**<br>
MHP650PSXX  (1) MHP650PSXX  (2) MHP650PSXX  (3)<br>V1 Output V1 Output V1 Output<br>mo - + Current mo - oO + Current CI - Co +<br>Share Share<br>NAN<br>CI - Cd +<br>Load<br>+ Sense - Sense<br>- Sense + Sense<br>- Sense + Sense<br>**----- End of picture text -----**<br>


5 

xppower.com 

## Parallel AC OK Connection 

**==> picture [417 x 318] intentionally omitted <==**

**----- Start of picture text -----**<br>
Power Supply (1) 5 V Standby   330R<br>Pin 9<br>AC OK Collector<br>Pin 3<br>AC OK Emitter<br>Pin 2<br>5 V Standby<br>Return Pin 10<br>J2 Connector<br>Power Supply (2)<br>OK Collector<br>Figure 8 Pin 3<br>OK Emitter<br>Pin 2<br>J2 Connector<br>Power Supply (3)<br>AC OK<br>Collector<br>Pin 3<br>AC OK Emitter  Transistor On (<0.8 V): AC OR DC OK<br>Pin 2 Transistor Off (>4.5 V): AC OR DC NOT OK<br>J2 Connector<br>**----- End of picture text -----**<br>


## Parallel Remote Inhibit Connection 

**==> picture [430 x 50] intentionally omitted <==**

**----- Start of picture text -----**<br>
PSU 1 PSU 2 PSU 8<br>Figure 9 Pin 7 Pin 7 Pin 7 Please see figure 6.<br>Pin 8 Pin 8 Pin 8<br>**----- End of picture text -----**<br>


6 

xppower.com 

Environmental Characteristic Minimum Typical Maximum Units Notes & Conditions Derate linearly from +50 °C at 2.5%/°C Operating Temperature -20 +70 °C to 50% at 70 °C. See fig 10. Some specification parameters maybe exceeded until Low Temperature Start Up -40 °C after 20 minutes warm up period. Storage Temperature -40 +85 °C Integral variable speed fan load dependant. Cooling See fig 11. Humidity 5 95 %RH Non-condensing Operating Altitude 3000 m 3 x 30 g/11 ms shocks in both +ve & -ve Shock directions along the 3 orthogonal axis, total 18 shocks. Vibration Single axis 10-500 Hz at 2 g x 10 sweeps Temperature Derating Curve 100 Figure 10 90 80 70 60 50 40 30 20 10 0 -20 0 +20 +40 +50 +60 +70 Ambient Temperature (ºC) Fan Speed Control 100 Figure 11 50 0 0 25 50 75 100 Output Power (%) Electromagnetic Compatibility - Immunity Phenomenon Standard Test Level Criteria Notes & Conditions Harmonic Current EN61000-3-2 Class A ESD EN61000-4-2 3 A Radiated EN61000-4-3 3 A EFT EN61000-4-4 3 A Surges EN61000-4-5 Installation class 3 A Conducted EN61000-4-6 3 A Magnetic EN61000-4-8 3 A Dip: 30% 10 ms A EN61000-4-11 Dip: 60% 100 ms B Dip: 100% 5000 ms B Dip: 30% 500 ms A Dips and Interruptions Dip: 60% 100 ms A 115 VAC input requires 50% load EN60601-1-2 derating otherwise criteria B Dip: 100% 10 ms A ~~2.~~ Dip: 100% 5000 ms B 7 

xppower.com 

## Electromagnetic Compatibility - Emissions 

|Phenomenon|Standard|Test Level|Criteria<br>Notes & Conditions|Notes & Conditions|
|---|---|---|---|---|
|Conducted|EN55022 / EN55011|Level B|||
|Radiated|EN55022 / EN55011|Level A|||
|Voltage Fluctuations|EN61000-3-3||||



## Safety Agency Approvals 

|Safety Agency|Safety Standard|Category|
|---|---|---|
|CB Report|Certificate #US/17354/UL, IEC60601-1 Ed 3 IncludingRisk Management|Medical|
|UL|UL File # E146893, ANSI/AAMI ES 60601-1:2005 & CSA C22.2 No. 60601-1:08|Medical|
|TUV|TUV Certificate # B11 09 57396 110, EN60601-1:2006|Medical|
|CE|LVD||
||||
||Means of Protection|Category|
|Primary to Secondary|2 x MOPP (Means of Patient Protection)|IEC60601-1 Ed 3|
|Primary to Earth|1 x MOPP (Means of Patient Protection)||
||||
|Equipment Protection Class|Safety Standard|Notes & Conditions|
|Class I|IEC60601-1 Ed 3|See safety agency conditions of<br>acceptibility for details|



## Mechanical Details - End Fan (Suffix -EF) 

**==> picture [487 x 349] intentionally omitted <==**

**----- Start of picture text -----**<br>
Standard Terminal Block, M4 Screw, 6 Pins, 9.5 mm Center<br>torque 10.62 lbs-in (1.2 Nm)<br>Standard Terminal  L<br>Block, M3.5 Screw 3<br>Pins 9.5 mm Center E<br>H y torque 10.62 lbs-in (1.2 Nm) L@llq N e s ") F<br>2.49 V1 Adjustment<br>N A(CS) ‘a l (63.3) 4 1 SOOO| & s<br>K d CSSGE } 1! ) O86 . =| Output On, LED<br>(Ca 45) | a e |) oooFF<br>9.18 (233.2)<br>2.50 (63.5)<br>2 x M3 THD both side faces I. — Se —<br>0.15 (3.8) max screw penetration AIRFLOW Pin 2 Pin 1<br>max torque 4.0-5.0 lbs-in (0.45-0.57 Nm) 1.95<br>(49.5)<br>Pin 10 Pin 9<br>J3: Logic Connector<br>rT 8.00 (203.2) | |<br>2.86 (72.6) | | [\] | J2 Logic Connector(JST B10B-PHDSS)<br>Pin Function<br>a , 9<br>1 + Sense<br>2 - Sense<br>4.00 3 AC OK/Power Fail<br>CL (101.6) 4 - Sense<br>5 Current Share<br>6 Current Share<br>7 + Inhibit<br>0.15 (3.8) max screw penetration4 x M3 THD  8 - Inhibit<br>max torque 4.0-5.0 lbs-in (0.45-0.57 Nm) 6.53 (165.8) (22.2)0.87 9 +5 V Standby (V3)<br>10 5 V Standby Return (V3)<br>Vo+<br>Vo-<br>**----- End of picture text -----**<br>


Notes: 

1. Dimensions shown in inches (mm). 

2. Weight: 2.8 lb (1.25 kg). 

3. J2 Mating plug: JST part no. PHDR-10VS, contact: 26-22 AWG JST part no. SPHD-001T-P0.5. 

8 

xppower.com 

## Xxxxxxxxxx **Mechanical Details** - Top Fan (Suffix -TF) 

**==> picture [516 x 347] intentionally omitted <==**

**----- Start of picture text -----**<br>
Standard Terminal Block, M3.5 Screw 3, Pins 9.5 mm Center Standard Terminal Block, M4 Screw, 6 Pins, 9.5 mm Center<br>torque 10.62 lbs-in (1.2 Nm) torque 10.62 lbs-in (1.2 Nm)<br>g— ————————>} o | io al L le] 1 [ e O00c 6, H EIL=n I k<br>bg Ke) Ol 1@ Iq NE <=— _ 0 J O S 8s+ AL ih |e B<br>SooeDosoo b lol aio] H E<br>BOOBS S00 iA fe] | COG | BI<br>SISSSSSOS ¢ b = joick a V1 Adjustment<br>BOCOIO O SO (/ — }) ie es e _ GF<br>CPOEOCLOCSL E O DO | Q & dil ) r ee e F ee drel<br>— Output On, LED<br>SS S E SSI O S |} o RSS” 6 C b S e e ar H t<br>Ewer I) ese FHF<br>8.00 (203.2) 2.50 (63.5)<br>2.58 (65.5)<br>2 x M3 THD both side faces gS Pin 2 Ya Pin 1<br>0.15 (3.8) max screw penetration<br>max torque 4.0-5.0 lbs-in (0.45-0.57 Nm) 1.95<br>2 || ® (49.5) Pin 10 A Aaat pin 9<br>|i<br>| J3: Logic Connector<br>: |<br>2.86 (72.6) |<br>| i<br>| a<br>4.00 | i<br>(101.6) cc<br>! i<br>| |<br>a<br>4 x M3 THD<br>0.15 (3.8) max screw penetration<br>max torque 4.0-5.0 lbs-in (0.45-0.57 Nm) 6.53 (165.8) | (22.2)0.87<br>Vo+<br>Vo-<br>AIRFLOW<br>**----- End of picture text -----**<br>


|J2 Logic Connector<br>(JST B10B-PHDSS)|J2 Logic Connector<br>(JST B10B-PHDSS)|
|---|---|
|Pin|Function|
|1|+ Sense|
|2|- Sense|
|3|AC OK/Power Fail|
|4|- Sense|
|5|Current Share|
|6|Current Share|
|7|+ Inhibit|
|8|- Inhibit|
|9|+5 V Standby (V3)|
|10|5 V StandbyReturn(V3)|



Notes: 

1. Dimensions shown in inches (mm). 

2. Weight: 2.6 lb (1.2 kg). 

3. J2 Mating plug: JST part no. PHDR-10VS, contact: 26-22 AWG JST part no. SPHD-001T-P0.5. 

9 

xppower.com 

## XxxxxxxxxxMechanical Details - U Channel (No Suffix) 

**==> picture [516 x 401] intentionally omitted <==**

**----- Start of picture text -----**<br>
Standard Terminal Block Standard Terminal Block, M4 Screw 6 Pins 9.5 mm Center<br>M3.5 Screw 3 Pins 9.5 mm Center torque 10.62 lbs-in (1.2 Nm)<br>torque 10.62 lbs-in (1.2 Nm)<br>L<br>E<br>N<br>V1 Adjustment<br>Output On, LED<br>—<br>8.00 (203.2)<br>2.46 (62.5)<br>Pin 2 Pin 1<br>2 x M3 THD both side faces<br>: z ee<br>0.15 (3.8) max screw penetration<br>max torque 4.0-5.0 lbs-in (0.45-0.57 Nm)<br>@. Pin 10 al Pin 9<br>System AirflowRequired 1.95 J3: Logic Connector<br>(49.5)<br>: 1 ) \Z<br>Pin 1<br>|<br>J1: Fan Connector J2 Logic Connector<br>(JST B10B-PHDSS)<br>er) Pin Function<br>1 + Sense<br>4.00<br>| |<br>(101.6) ao. 2 - Sense<br>CL 3 AC OK/Power Fail<br>2.86<br>(72.6) 4 - Sense<br>a | 56 Current ShareCurrent Share<br>Fal : 7 + Inhibit<br>max torque 4.0-5.0 lbs-in (0.45-0.57 Nm)0.15 (3.8) max screw penetration4 x M3 THD  — 6.53 (165.80) (22.20.87) 89 +5 V Standb- Inhibity (V3)<br>10 5 V Standby Return (V3)<br>Vo+<br>Vo-<br>**----- End of picture text -----**<br>


Notes: 

1. Dimensions shown in inches (mm). 

1. Dimensions shown in inches (mm). 4. J1 Mating plug: JST part no. PHR-2, contact: JST part no. 2. Weight: 2.4 lb (1.1 kg). SPH-002T-P0.5S. 

3. Requires system airflow, see thermal considerations. 5. J2 Mating plug: JST part no. PHDR-10VS, contact: 26-22 AWG JST part no. SPHD-001T-P0.5. 

J1 Fan Connector (JST B2B-PH-KL (LF) (SN) Pin Function 1 +V 2 -V 

## Thermal Considerations (U Channel) 

|Temperature Measurements  (Ambient≤50 ºC)|Temperature Measurements  (Ambient≤50 ºC)|
|---|---|
|Component|Recommended<br>Temperature ºC<br>Maximum<br>Temperature ºC|
|C55 Capacitor|70<br>105|
|T302 Transformer|90<br>120|
|C314 Capacitor|70<br>105|
|D311 Diode|100<br>120|



In order to ensure reliable operation in the end use application the recommended component temperatures listed should not be exceeded. Higher temperatures up to the maximum stated can be used but product lifetime may be reduced. 

10 

21-Feb-17 

- 1200 W High Line Output Power 

- Rugged Industrial Construction 

- Variable Speed Fan for Noise Reduction 

- -40 °C to +70 °C Operation 

- 5 V Standby 

- AC OK, Remote On/Off and Active Current Share 

- Screw Terminals 

- 3 Year Warranty 

The MHP1000 AC-DC power supply provides upto 1200 W of output power in a compact rugged mechanical package, suitable for a range of medical applications. 

The unit comprises of a main output with voltages from 12-48 VDC and a 5 VDC standby supply which can be utilitsed with the signals and control features of the unit to provide detection of loss of AC input and remote on/off control. 

Multiple units can be used in parallel via the current share facility, providing higher power solutions. Inherently low earth leakage current, and conducted EMC compliance to Class B also simplify higher power system design. 

Packaged in a compact 9.5” (241 mm) x 5.9” (150 mm) x 2.4” (61 mm) and carrying IEC60601 family safety approvals, the MHP1000 has a load dependant variable speed fan is fully protected with overtemperature shutdown and provides -40 ºC start up with full power from -20 ºC to 50 ºC and 50% power at +70 ºC. 

xppower.com 

## Models and Ratings 

|Output Voltage V1|Max Output Current V1|Max Output Current V1|Standby Supply V2|Max Output Power|Max Output Power|Model Number|
|---|---|---|---|---|---|---|
||<180 VAC|>180 VAC||<180 VAC|>180 VAC||
|12 V|83.0 A||5 V / 1.0 A|1001 W||MHP1000PS12|
|15 V|67.0 A||5 V / 1.0 A|1010 W||MHP1000PS15|
|24 V|42.0 A|50.0 A|5 V / 1.0 A|1013 W|1200 W|MHP1000PS24|
|28 V|36.0 A|43.0 A|5 V / 1.0 A|1013 W|1200 W|MHP1000PS28|
|36 V|28.0 A|34.0 A|5 V / 1.0 A|1013 W|1200 W|MHP1000PS36|
|48 V|21.0 A|25.0 A|5 V / 1.0 A|1013 W|1200 W|MHP1000PS48|



Input Characteristics 

|Characteristic<br>Minimum<br>Typical<br>Maximum<br>Units<br>Notes & Conditions<br>Input Voltage - Operating<br>85<br>115/230<br>264<br>VAC<br>Derate outputpower < 90 VAC. See fig. 1.<br>Input Frequency<br>47<br>50/60<br>63<br>Hz<br>Power Factor<br>>0.9<br>EN61000-3-2 class A compliant<br>Input Current - No Load<br>0.35/0.5<br>A<br>115/230 VAC<br>Input Current - Full Load<br>(1000 W)<br>10.9/5.3<br>A<br>115/230 VAC<br>Inrush Current<br>60<br>A<br>230 VAC cold start,25ºC<br>Earth Leakage Current<br>75/140<br>250<br>µA<br>115/230 VAC/50 Hz(Typ.),264 VAC/60 Hz(Max.)<br>Input Protection<br>T20 A/250 V internal fuse in both lines<br>~~———————~~|
|---|
|Figure 1<br>Input Derating Curve<br>90<br>85<br>264<br>40<br>50<br>80<br>60<br>70<br>90<br>100<br>Output Power (%)<br>~~|~~|



**==> picture [59 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
Input Voltage (VAC)<br>**----- End of picture text -----**<br>


2 

~~ee!~~ xppower.com ~~A~~ 

## Output Characteristics 

|Characteristic|Minimum|Typical|Maximum|Units|Notes & Conditions|
|---|---|---|---|---|---|
|Output Voltage - V1<br>~~Ge~~<br>~~pO~~|12<br>~~Ge~~|~~GG~~|48<br>~~GG~~|VDC|See Models and Ratings table|
|Initial Set Accuracy<br>~~pO~~<br>~~pf~~|~~pf~~||±1 (V1),±5 (V2)<br>~~GG~~|%<br>~~GG~~|50% load,115/230 VAC|
|Output Voltage Adjustment<br>~~pO~~<br>~~GG~~<br>~~pf~~|~~GG~~<br>~~pf~~|~~GG~~|±10<br>~~GG~~<br>~~GG~~|%<br>~~GG~~<br>~~GG~~|V1 only. See mechanical details.<br>~~GG~~|
|Minimum Load<br>~~pf~~|0<br>~~pf~~||~~GG~~|A<br>~~GG~~||
|Start UpDelay<br>~~pf~~<br>~~Ge~~|~~pf~~<br>~~Ge~~|0.5<br>~~GG~~|~~GG~~<br>~~GG~~|s<br>~~GG~~<br>~~GG~~|230 VAC full load<br>~~GG~~|
|Hold UpTime<br>~~Ge~~<br>~~pf~~|20<br>~~Ge ~~<br>~~pf~~|~~GG~~<br>~~pf~~|~~GG~~<br>~~pf~~|ms<br>~~GG~~<br>~~pf~~|~~GG~~<br>~~pf~~|
|Drift<br>~~pT~~|~~pT~~|~~pT~~|±0.2<br>~~pT~~|%<br>~~pT~~|After 20 min warm up<br>~~pT~~|
|Line Regulation<br>~~pT~~<br>~~Ge~~|~~pT~~<br>~~Ge~~|~~pT~~<br>~~GG~~|±0.5<br>~~pT~~<br>~~GG~~|%<br>~~pT~~|90-264 VAC<br>~~pT~~|
|Load Regulation<br>~~pO~~|~~pO~~|~~pO~~|±1 (V1),±5 (V2)<br>~~pO~~|%<br>~~pO~~|0-100% load.<br>~~pO~~|
|Transient Response - V1|||4|%|Recovery within 1% in less than 500 µs<br>for a 50-75% and 75-50% load step|
|Ripple & Noise<br>~~eG~~|~~eG~~|~~GG~~|1<br>~~GG~~|%pk-pk|V1: 20 MHz bandwidth|
|Overvoltage Protection<br>~~eG~~<br>~~Ge~~|115<br>~~eG~~<br>~~Ge ~~|~~GG~~<br> ~~GG~~|145<br>~~GG~~<br>~~GG~~|%<br>~~GG~~|Vnom DC. Output 1 only,recycle input to reset<br>~~GG~~|
|Overload Protection<br>~~pT~~|110<br>~~pT~~|~~pT~~|140<br>~~pT~~|% I nom<br>~~pT~~|Output 1 only,auto reset. See fig2.<br>~~pT~~|
|Short Circuit Protection<br>~~Ge~~<br>~~pf~~|~~Ge ~~<br>~~pf~~|~~GG~~|~~GG~~|~~GG~~|Auto Recovery,hiccupmode<br>~~GG~~|
|Temperature Coefficient<br>~~pf~~|~~pf~~|~~GG~~|0.02<br>~~GG~~|%/˚C<br>~~GO~~|~~GO~~|
|Overtemperature Protection<br>~~pf~~<br>~~eG~~|~~pf~~<br>~~eG~~|~~eG~~<br>~~GG~~|~~eG~~<br>~~GG~~|°C<br>~~eG~~<br>~~GO~~|Protects unit from overtemperature. Auto reset.<br>~~eG~~<br>~~GO~~|



## Output Overload Characteristic 

**==> picture [345 x 138] intentionally omitted <==**

**----- Start of picture text -----**<br>
14<br>12<br>10<br>8<br>6<br>4<br>Unit enters<br>2 hiccup mode<br>0<br>0 5 10 15 20 25 30 35<br>Output Current (A)<br>Output Voltage (V)<br>**----- End of picture text -----**<br>


Figure 2 Typical V1 Overload Characteristic (MHP1000PS12 shown) 

3 

xppower.com 

## General Specifications Xxxxxxxxxx 

|Characteristic|Minimum|Typical|Maximum|Units|Notes & Conditions|
|---|---|---|---|---|---|
|Efficiency||84||%|See fig3 & 4|
|Isolation: Input to Output<br>Input to Ground<br>Output to Ground|4000|||VAC||
||1500|||VAC||
||500|||VDC||
|SwitchingFrequency||70/200/130||kHz|PFC converter / Main converter / Standby|
|Power Density|||8.9|W/in3||
|Mean Time Between Failure||260||kHrs|MIL-HDBK-217F at 25ºC GB|
|Weight||2.1(940)||lb(g)|See mechanical details|



## Efficiency vs Load 

MHP1000PS12 Figure 3 

MHP1000PS48 Figure 4 

## Signals & Control 

|Characteristic|Notes & Conditions|
|---|---|
|**Signals & Control**||
|Remote Sense|Compensates for 0.5 V total voltage drop|
|AC OK / Power Fail|Open collector referenced to negative sense, transistor normally off when AC is good (see fig. 5 & 8)<br>AC OK: Provides ≥5 ms warningof loss of output from AC failure|
|Remote On/Off (Inhibit/Enable)|Uncommited isolated optocoupler diode, powered diode inhibits both V1 & V2 (fan supply) (see fig.6 & 9)|
|Current Share|When more than one unit (with the same output voltage) is used in parallel to increase output current, the<br>current share pins 5/6 of one unit should be connected to pins 5/6 of the other unit(s). This will force the<br>current to share between the outputs. Similarly pins 2/4 of each unit should also be connected as a ground<br>reference. Units share current within 10% of each other at full load. See fig 7.|
|Standby Supply V2|Isolated 5 V/1.0 A supply, always present when AC supplied.|



4 

xppower.com 

## Signals & Control 

## AC OK/Power Fail 

Figure 5 

**==> picture [231 x 149] intentionally omitted <==**

**----- Start of picture text -----**<br>
POWER SUPPLY<br>5 V Standby<br>] Pin 9 330R<br>|<br>Max 12 V 20 mA<br>AC OK Collector<br>Pin 3<br>]<br>| Transistor On (<0.8 V): AC NOT OK<br>Transistor Off (>4.5 V): AC OK<br>] AC OK Emitter<br>| Pin 2 (-sense)<br>]<br>| 5 V Standby<br>Return Pin 10<br>a<br>J2 Logic Connector |<br>**----- End of picture text -----**<br>


## Remote On/Off (Inhibit) 

**==> picture [487 x 198] intentionally omitted <==**

**----- Start of picture text -----**<br>
Figure 6 INHIBIT HI INHIBIT LOW<br>800 R POWER SUPPLY 800 R POWER SUPPLY<br>pO 5 V Standby  Ld en 5 V Standby<br>Pin 9 Pin 9<br>2-5 mA 100 R 2-5 mA |<br>100 R<br>Inhibit Hi<br>Pin 7 | Inhibit Hi e—<br>Pin 7<br>| AX AA<br>V):<br>“A ‘AA<br>V):  Inhibit Lo Inhibit Lo<br>Pin 8 Pin 8<br>O<br>5 V Standby<br>O-L_ H 5 V Standby  O-L_ H Return Pin 10<br>Return Pin 10<br>O ©<br>Io Chassis J3 Logic  LLL. Connector Po Chassis J3 Logic Connector<br>Signal    High: Power Supply OFF Signal  High: Power Supply ON<br>              Low or Floating: Power Supply ON Low or Floating: Power Supply OFF<br>**----- End of picture text -----**<br>


## Signals  -  Parallel Load & Current Share Connection Example 

**==> picture [31 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
Figure 7<br>**----- End of picture text -----**<br>


**==> picture [208 x 143] intentionally omitted <==**

**----- Start of picture text -----**<br>
MHP1000PSXX  (1) MHP1000PSXX  (2) MHP1000PSXX  (3)<br>V1 Output V1 Output V1 Output<br>- + Current - + Current - +<br>Share Share<br>CI] - +<br>Load<br>ene<br>+ Sense - Sense<br>- Sense + Sense<br>- Sense + Sense<br>**----- End of picture text -----**<br>


5 

xppower.com 

## Parallel AC OK Connection 

**==> picture [400 x 317] intentionally omitted <==**

**----- Start of picture text -----**<br>
Power Supply 1 5 V Standby   330R<br>Pin 9<br>AC OK Collector<br>Pin 3<br>AC OK Emitter<br>Pin 2<br>5 V Standby<br>Return Pin 10<br>J3 Connector<br>Power Supply 2<br>OK Collector<br>Figure 8 Pin 3<br>OK Emitter<br>Pin 2<br>J3 Connector<br>Power Supply 3<br>AC OK<br>Collector<br>Pin 3<br>AC OK Emitter  Transistor On (<0.8 V): AC NOT OK<br>Pin 2 Transistor Off (>4.5 V): AC OK<br>J3 Connector<br>**----- End of picture text -----**<br>


## Parallel Remote Inhibit Connection 

**==> picture [425 x 50] intentionally omitted <==**

**----- Start of picture text -----**<br>
PSU 1 PSU 2 PSU 8<br>Figure 9 Pin 7 Pin 7 Pin 7 Please see figure 6.<br>Pin 8 Pin 8 Pin 8<br>**----- End of picture text -----**<br>


6 

xppower.com 

Environmental ~~Xxxxxxxxxx~~ Characteristic Minimum Typical Maximum Units Notes & Conditions Operating Temperature -20 +70 °C to 50% at 70 Derate linearly from +50 ºC. See fig 10.ºC at 2.5%/ºC Some specification parameters maybe Low Temperature Start Up -40 °C exceeded until after 20 minutes warm up period. Storage Temperature -40 +85 °C 2 x integral variable speed fans Cooling load dependant. See fig 11. Humidity 5 95 %RH Non-condensing Operating Altitude 3000 m 3 x 30 g/11 ms shocks in both +ve & -ve Shock directions along the 3 orthogonal axis, total 18 shocks. Vibration Single axis 10-500 Hz at 2 g x 10 sweeps Temperature Derating Curve 100 Figure 10 90 80 70 60 50 40 30 20 10 0 -20 0 +20 +40 +50 +60 +70 Ambient Temperature (ºC) Fan Speed Control 100 Figure 11 50 0 0 25 50 75 100 Output Power (%) Electromagnetic Compatibility - Immunity Phenomenon Standard Test Level Criteria Notes & Conditions Low Voltage PSU EMC EN61204-3 High severity level as below Harmonic Current EN61000-3-2 Class A ESD EN61000-4-2 3 A Radiated EN61000-4-3 3 A EFT EN61000-4-4 3 A Surges EN61000-4-5 Installation class 3 A Conducted EN61000-4-6 3 A Dip: 30% 25 AC Cycles A Dip: 60% 5 AC Cycles A 230 VAC 100% load, 100 VAC 50% load Dips and Interruptions EN60601-1-2 Dip: 100% 0.5 AC Cyles A ~~--~~ Int: >95% 5000 ms B 7 

xppower.com ~~a XP |~~ 

## Electromagnetic Compatibility - Emissions 

|Phenomenon|Standard|Test Level|Criteria|Notes & Conditions|
|---|---|---|---|---|
|Conducted|EN55011/22|Class B|||
|Radiated|EN55011/22|Class A|||
|Voltage Fluctuations|EN61000-3-3||||



## Safety Agency Approvals 

|Safety Agency|Safety Standard|Category|
|---|---|---|
|CB Report|Certificate #US/18260/UL, IEC60601-1 Ed 3 IncludingRisk Management|Medical|
|UL|UL File # E146893, ANSI/AAMI ES 60601-1:2005 & CSA C22.2 No. 60601-1:08|Medical|
|TUV|TUV EN60601-1:2006|Medical|
||||
||Means of Protection|Category|
|Primary to Secondary|2 x MOPP (Means of Patient Protection)|IEC60601-1 Ed 3|
|Primary to Earth|1 x MOPP (Means of Patient Protection)||
||||
|Equipment Protection Class|Safety Standard|Notes & Conditions|
|Class I|IEC60601-1 Ed 3|See safety agency conditions of<br>acceptability for details|



## Mechanical Details 

**==> picture [468 x 424] intentionally omitted <==**

**----- Start of picture text -----**<br>
Standard Terminal Block, M6 Screw, 4 Pins 0.62 (16.0) center<br>Torque 26.0 lbs-in (2.94 Nm)<br>(OSS | al eek<br>UN e Z =| a «so<br>2.91 5.90<br>(73.9) Le oS o, (149.8) ‘ol — A e Me I t Output On, LED<br>Oge e ol | a baal<br>LES = Pe) sc1_ St V1 Adjustment<br>PENS i \) qe | aFi<br>1.47 Way IZ || lel . N (eeldase’ees aL B<br>(37.4) Sy = i) L (ec= (11 FI<br>1.20 (30.5) 9.48 (240.9) 2.40 (61.0)<br>9.55 (242.64) Standard Terminal Block, M4 Screw<br>3 Pins 0.37 (9.5) center<br>Torque 10.62 lbs-in (1.2 Nm)<br>0.15 (3.8) max screw penetration4 x M4-0.7 THD both side faces ————— 9.41 (238.9)<br>max torque 10.62 lbs-in (1.2 Nm) iN © [ o ) o m<br>B B J3 Logic Connector<br>Airflow lo ~ i g (JST B10B-PHDSS)<br>[—) i| iLo 7 A ® ® 1.20 (30.5) Pin Function<br>1 + Sense<br>2 - Sense<br>3 AC OK/Power Fail<br>4 x M4-0.7 THD both side faces : i<br>0.15 (3.8) max screw penetration 4 - Sense<br>|<br>max torque 10.62 lbs-in (1.2 Nm) 5 Current Share<br>6 Current Share<br>ye B -—-—-—-—-—-—-- B 7 + Inhibit<br>8 - Inhibit<br>HE)|- | || 9 +5 V Standby<br>10 -5 V Standby<br>4.50<br>CL iil | ° ° 'n 6i (114.3)<br>Pin 2 ati Pin 1 |_ | |<br>Pin 10 Pin 9 B B<br>Detail A J3: Logic Connector ae os Pe<br>6.70 (170.2)<br>1.33 (33.8)<br>3. J3 Mating plug: JST part no. PHDR-10VS, contact: 26-22 AWG JST part no.<br>SPHD-001T-P0.5.<br>VO-<br>VO+<br>**----- End of picture text -----**<br>


Notes: 

1. Dimensions shown in inches (mm). 

2. Weight: 2.8 lb (1.25 kg). 

8 

21-Feb-17