MP40 / / K0 Instruction Manual
MP40,,K0 Instruction Manual 0. Introduction.... Order Information.... Explanation for Encoding.... Notes on Encoding.... Marking.... Mechanical Specification and Output Terminals.... Mechanism of the Whole Power System.... Mechanism of Output Modules.... Functions.... Input Voltage Range.... Inrush Current Limiting.... Output Voltage Adjustment Range....4 Short Circuit Protection & Over Current Protection (O.C.P.).... Over Voltage Protection (O.V.P.)....6 Over Temperature Protection (O.T.P.)....7 Fan Alarm....8 Remote Sense - Output Modules....9 Auxiliary Output....0 Remote ON/OFF Control - Whole Power System.... Remote ON/OFF Control - Output Modules.... Remote Margin / V- Program.... Parallel Operation....4 Series Operation... 4. Notes On Operation... 4. Requirement for Assembly... 4. Installation Method... 4. Derating....Series / Parallel Connection Accessory.... Series Connection Accessory.... Parallel Connection Accessory... 6.Specification... 6. Front End... 6. Output Module... 6 6 6 6 7 7 8 8 8 9 9 9 9 0 0 0
Bauart gepruft Sicherheit egelma ge od o s be wac g www. tuv.com ID 000000000 Bauart gepruft Sicherheit egelma ge od o s be wac g www. tuv.com ID 000000000 Bauart gepruft Sicherheit egelma ge od o s be wac g www. tuv.com ID 000000000 MP40,,K0 Instruction Manual 0. Introduction Modular Series are switching power supplies with modular design that consist of two stages: front-end PFC and output modules. Using ZVS (Zero Voltage Switching) technology to realize the power factor correction, the line input is rectified into high DC voltage (around 90VDC) by the front-end PFC stage, and then the DC output modules will transfer the operating voltage into all kinds of DC output voltages. Right now we offer six-categories totally 7 different kinds of models - 7W(MS-7), 0W(MS-0), 0W(MS-0) 00W(MS-00), W(MS-) single output modules and 00W(MD-00) dual output modules - to fulfill all kinds of applications.. Order Information. Explanation for Encoding MP - - SLOT SLOT SLOT SLOT4 SLOT SLOT6 SLOT7 40//K0(40W/W/000W) Modular Power with PFC 40W/W(SLOT) 000W(7SLOT) Table. Parallel code(for MS-0 MS-00 MS- only) Model MS-00/ MS-0 Code X 4 6 7 8 9 Parallel or option code (See Table.) SLOT SLOT SLOT SLOT4 SLOT SLOT6 SLOT7 ----- ----- ----- ----- ----- ----- Code X,,,7,8,9 for MP40, MP Code X,,,,4,,6,7,8,9 for MPK0 Maximum number of units for parallel function : for MS-0, for MS-00/ Example: MPK0- C E # S K SLOT O/P:V@A SLOT, O/P:V@A SLOT4 Blank Slot SLOT O/P:V@0A V@4.A SLOT6,7 O/P:48V@6.A. Notes on Encoding Please map out output modules that need to be connected in series or parallel at adjoining slots. Total wattage usage of all output modules should be less than the rated power of front-end PFC stage.. Marking Please refer to the marking on the safety label in front of the machine before using it. Figure - Safety labels
. Mechanical Specification and Output Terminals. Mechanism of the Whole Power System max. MP40 4 47. 9 6 max. Unit:mm. 8 6. 8-M4(Both Sides) 47. 9 4-M4. Air flow direction 0. 7 TB 0 8. MP max. 78 7. 9 6 max.. Air flow direction 8-M4(Both Sides) 4-M4 7. 9 8. 0. 7 6. TB 0 8. MPK0 max. 78 7. 9 6 max. 8 6.. 8-M4(Both Sides) 7. 9 Air flow direction 4-M4.4.6 77.8 TB 0 TB(PFC-40//K0) Pin No. 8. Assignment AC/L AC/N F (PFC-40//K0) : JST BB-XH Pin No. Assignment Mating Housing : +Remote ON/OFF : -Remote ON/OFF VCC: V/0.A auxiliary output JST XHP Terminal JST SXH-00T-P0.6
. Mechanism of Output Modules MS-7 Unit:mm 8 6 max. max. max. CN 4 SVR Output Connector(CN) : JST B4B-XH Pin No. Assignment Mating Housing Terminal +S: +Remote sensing -S: -Remote sensing JST XHP JST SXH-00T-P0.6 4 : +Remote ON/OFF : -Remote ON/OFF MS-0 8 6 max. max. max. CN0 4 SVR Output Connector(CN0) : JST B4B-XH Pin No. Assignment Mating Housing 4 +S: +Remote sensing -S: -Remote sensing : +Remote ON/OFF : -Remote ON/OFF JST XHP Terminal JST SXH-00T-P0.6 MS-0 8 6 max. max. max. SVR CN7 8 7 Output Connector(CN7) : HRS DF-8DP-DS Pin No. Assignment Pin No. Assignment Mating Housing +S: +Remote sense CS: Current sharing -S: -Remote sense 6 : ND HRS DF-8DS : +Remote ON/OFF 7 ML: Remote margin low control 4 : -Remote ON/OFF 8 M: Remote margin control NOTE:.The voltage difference among each output should be minimized that less than % is required..the total output current must not exceed the value determined by the following equation. (Output current at parallel operation) = (The rated current per unit) (Number of unit) 0.9 Terminal DRS DF-**SC
MS-00 8 6 max. 4 max. max. 6 CN SVR Output Connector(CN) : JST B6B-XH Pin No. Assignment Mating Housing 4 6 +S: +Remote sensing -S: -Remote sensing : +Remote ON/OFF : -Remote ON/OFF CS:Current sharing :ND JST XHP Terminal JST SXH-00T-P0.6 NOTE:.The voltage difference among each output should be minimized that less than % is required..the total output current must not exceed the value determined by the following equation. (Output current at parallel operation) = (The rated current per unit) (Number of unit) 0.9 MS- 8 6 max. 4 max. max. CN7 Output Connector(CN7) : JST B8B-XH Pin No. Assignment Pin No. Assignment Mating Housing +S: +Remote sense CS: Current sharing -S: -Remote sense 6 : ND JST XHP : +Remote ON/OFF 7 ML: Remote margin low control 4 : -Remote ON/OFF 8 M: Remote margin control 8 SVR NOTE:.The voltage difference among each output should be minimized that less than % is required..the total output current must not exceed the value determined by the following equation. (Output current at parallel operation) = (The rated current per unit) (Number of unit) 0.9 Terminal JST SXH-00T-P0.6 MD-00 8 6 max. max. max. ND Output Connector() : JST BB-ZR Pin No. Assignment Mating Housing JST ZHR- Terminal JST SZH-00T-P0. ND SVR4 SVR NOTE:.Remote ON/OFF of turn ON/OFF the entire power system.remote ON/OFF of CN0,CN,,CN turn ON/OFF the individual output module.svr~: DC output voltage adjustment(svr4 for CH of MD-00,SVR for CH of MD-00) 4
. Functions. Input Voltage Range Nominal input voltage range is AC 8~64V or DC 0~70V. To insure proper operation, AC input should be within the pre-specified range. The wrong input will cause the power supply to operate improperly, lose the PFC function or even be damaged. Since the Modular Series have built-in active PFC circuit, there will be lower efficiency and output derating is required when operating at lower input voltage (<00VAC).. Inrush Current Limiting Built-in inrush current limiting circuit. The external switch, if needed, should have a current rating exceeding the maximum inrush current. Since the inrush current limiting circuit mainly consists of thermistor and relay, after turning off the power supply, a 0 second cool down period is recommended before turning it back on. Inrush current will be much higher than the specified value if input thermistor is not allowed sufficient time to cool down.. Output Voltage Adjustment Range Minor adjustments can be made to the output voltage of all channels by using a potentiometer. Turning clockwise will increase output voltage and counterclockwise will decrease output voltage. When the output is tuned to a higher voltage, please notice that the load current should be decreased accordingly. The output wattage of each module should not exceed its rated value under any circumstances..4 Short Circuit Protection & Over Current Protection (O.C.P.) Built-in short circuit and over current protection function in each output module. O.C.P. comes into effect at >6% of output rated current and the output module will automatically recover once the over current condition is removed. (MS-7/0/0/00/ are constant current type while MD-00 is shut-off type). Over Voltage Protection (O.V.P.) Built-in over voltage protection circuit for each output channel. The O.V.P. triggering points are different for different output modules. Please refer to the specification sheet for details. The output module shuts down when O.V.P. is triggered. To restart power supply, please switch off VAC first and then wait for 0 seconds before switching it back on..6 Over Temperature Protection (O.T.P.) Built-in sets of over temperature protection circuit. When the internal temperature exceeds the threshold value, the power supply will shut down automatically. You should switch off VAC and remove all possible causes of overheating, and then let the power supply cool down to normal working temperature (needs about 0 minutes~hour) before turning it back on..7 Fan Alarm Built-in fan malfunction protection circuit. When the DC fan stop operating (fan lock, wire broken, or connector loosed), all output modules will be shut down. Please switch off V and send back to our local distributor or MEAN WELL for repair. AC.8 Remote Sense - Output Modules Built-in remote sense circuit in MS-7, MS-0, MS-0, MS-00 and MS-. When using this function, the sensing wires should either be twisted or shielded to prevent external noise interference. (refer to figure -) When Remote Sense is not in use, +S should be shorted to and -S to. Or +S and -S can be left unconnected. The voltage drop across the output wires must be limited to less than 0.V. Also heavy wires with adequate current rating should be used between / and the load. Please firmly connect the output wires to prevent them from loosing, or the power supply may be out of order. If long sensing wires are necessary, then Noise Filtering Capacitors C,C and C need to be added as figure -. The power supply unit may become unstable due to the difference in wire impedance and load current. The addition of C, C, C and R shown in figure - may help improve output voltage stability. Please contact MEAN WELL for more detail specification of these components. CN7 of MS- CN of MS-00 CN7 of MS-0 CN0 of MS-0 CN of MS-7 -S +S TWISTED R C C Output TWISTED LOAD C Figure - Connection for using the remote sense function
.9 Auxiliary Output Built-in V/0.A auxiliary output that can be used as the voltage source of remote ON/OFF control application for individual output modules or the whole modular system. Please refer to figure - and - for wiring methods..0 Remote ON/OFF Control - Whole Power System Built-in remote ON/OFF control circuit for the whole power system. The remote control circuit ( and ) has electric isolation from Vin and V out. When there's a 4~V voltage difference or open circuit between &, the whole power system will be turned off. The power supply will be turned on if the voltage difference between & is less than 0.8V or short circuit. ( The whole power system will have no output if the shorting connector is not assembled between & on.) The auxiliary output on the power supply can be used as the external control source of the remote ON/OFF control function. Please refer to figure. for connecting methods. SW TTL Level Signal Vcc V/0.A Vcc V/0.A Figure - Connection for the remote ON/OFF control function of the whole power system. Remote ON/OFF Control - Output Modules Built-in remote ON/OFF control circuit for each output module. All output modules can be turned ON/OFF independently by using the remote ON/OFF control function. The remote control circuit ( and ) has electric isolation from Vin and V out. When there's a 4~V voltage difference between &, the output module will be turned off. The power supply will be turned on if the voltage difference between & is less than 0.8V or open circuit. The auxiliary output on the power supply can be used as the external control source of the remote ON/OFF control function on each output module. Please refer to figure. for connecting methods. Vcc V/0.A Front End Output Module CN7 of MS- CN of MS-00 CN7 of MS-0 CN0 of MS-0 CN of MS-7 of MD-00 Vcc V/0.A Front End Output Module CN7 of MS- CN of MS-00 CN7 of MS-0 CN0 of MS-0 CN of MS-7 of MD-00 KΩ TTL Level Signal Figure - Connection for the remote ON/OFF control function of output modules. Remote Margin / V-Program Remote Margin / V- Program is available for MS-0 and MS- to fine tune the output voltage. Hereunder is the instruction, assuming no voltage adjustment is applied via the built-in potentiometer. () Connecting PIN CN7-6 with PIN CN7-8 will increase the output voltage by approximately % of the rated voltage. CN7-6 CN7-8 Figure -4 ()Connecting PIN CN7-6 with PIN CN 7-8 will reduce the output voltage by approximately % of the rated voltage. CN7-7 CN7-8 Figure - 6
()Connecting an additional 00KΩ potentiometer to PIN CN7-6, PIN CN7-7 and PIN CN7-8 will provide an adjustment for the output voltage in a range of -% to +% of the rated voltage (ex: -%, +.% and etc.) CN7-8 CN7-7 Figure -6 CN7-6 Note : The remote margin / V- program function cannot be used when units are connected in parallel.. Parallel Operation MS-0, MS-00 and MS- are allowed to work in parallel. Only same output modules adjoining one another inside the same power supply are recommended to connect in parallel. The total output current should not exceed 90% of the sum of rated currents. For example: MP-CCO- Parallel code "" means that the two MS-00-C(V/0A) located at SLOT, & SLOT,4 should be connected in parallel and the maximum output current is 90A [(0A+0A)*0.9]. Please adjust the output voltages to the required value before wiring the output modules. The voltage difference among output modules should be minimized that less than ± % is required. All wirings should be properly connected before turning on. The power supply can not be hot swapped. Please connect the output terminal of each output module in parallel first and then connect to the load as shown in Figure -7. Don't connect to the load separately. Please connect the +S,-S,CS and of each output module in parallel as well. -S +S CS M ML CN7 MS-0 +S +S -S -S CN MS-00 CS CS MS- V+ V- ML V+ V- M CN7 CN7 -S +S CS M ML V+ MS-0 V- LOAD CN +S -S CS MS-00 LOAD CN7 +S -S CS ML M MS- LOAD V+ V- V+ V- V+ V- Figure -7 Operating in parallel connection.4 Series Operation Higher output voltage can be acquired by using MS-7, MS-0, MS-0, MS-00 or MS- in series connection. Only output modules with the same output wattage and adjoining one another are recommended to connect in series Output current for series connection should not exceed the smallest rated current of all series connecting modules. The difference in rise times of individual output module will lead to steps/stairs like turn on. The output voltage after series connection should be less than Vdc [the requirement of SELV(Safety Extra Low Voltage) of IEC90-]. V+ V- +S -S -S +S CS M ML V+ MS-0 V- S+ S- P +S -S MS-00 MS- CS V+ V- ML V+ V- M MS-7 MS-0 LOAD -S +S CS M ML MS-0 S+ +S S- -S LOAD LOAD LOAD P MS-00 MS- CS ML M +S -S V+ V- V+ V- V+ V- V+ V- Figure -8 Operating in series connection 7
4.Notes On Operation 4. Requirement for Assembly Based on safety considerations, the assembly task should be executed in factories certified by the safety organizations and should be authorized by MEAN WELL in advance as well. 4. Installation Method The assembly diagram of the PFC front-end and output modules is shown in Figure 4-. Cover Label FAN Right EMI Board PFC Board Output Module SLOT Left Bottom SLOT Figure 4- System assembly diagram This is a power supply with built-in DC fan and please make sure that the ventilation is not blocked. It is suggested that there should be no barriers within 0cm of the ventilating holes. The power supply unit should be mounted on a holding rack for extra support as shown in Figure 4-. TOP Hold rack TOP TOP Figure 4- Mounting alternatives In order to maintain a safe isolation distance from internal components, please use screws with length less than 6mm measured from the case as shown in Figure 4-. Chassis of Customer's system P.S.U. Case Screw M4 L=6mm max. Figure 4- Mounting screw 8
4. Derating The Modular Series consists of PFC front-end and output modules. The electrical specification of each output module should be carefully checked before operating and the total output power of all modules that is actually used should be less than the rated power of its PFC front-end. Output load derating is required for proper operation in high ambient temperature or at low AC input. Please refer to the output derating curves of MP40, MP, and MPK0 shown in Figure 4-4. 00 RATED POWER (%) 80 0 40 0 RATED POWER (%) 00 90 8 80 70-0 0 0 0 0 40 0 70 (HORIZONTAL) 8 90 00 0 40 80 00 0 40 64 AMBIENT TEMPERATURE ( ) INPUT VOLTAE (V) Hz Figure 4-4 Output derating curves for Modular Series.Series / Parallel Connection Accessory. Series Connection Accessory Series Connection Accessory FAS-00 ( For - slot modules: MS- 7/ 0, MD- 00) FAS-00 ( For - slot modules: MS- 00) FAS-00 ( For - slot modules: MS- 0) FAS-004 ( For - slot modules: MS- ). Parallel Connection Accessory Parallel Connection Accessory FAP-00 ( For MS-00, units) FAP-00 ( For MS-0, 4 units) FAP-00 ( For MS-00, units) FAP-006 ( For MS-0, units) FAP-00 ( For MS-0, units) FAP-007 ( For MS-, units) FAP-004 ( For MS-0, units) FAP-008 ( For MS-, units) 9
6.Specification 6. Front End MODEL PFC-40 PFC- PFC-000 VOLTAE RANE 8 ~ 64VAC 0 ~70VDC FREQUENCY RANE POWER FACTOR 47 ~ 6Hz PF>0.9/0VAC PF>0.98/VAC at full load INPUT EFFICIENCY Note. 8.% typ. 84% typ. 84% typ. AC CURRENT 6.A/VAC.A/0VAC 9A/VAC 4.A/0VAC.A/VAC 6.7A/0VAC INRUSH CURRENT A/VAC 40A/0VAC 0A/VAC 0A/0VAC 0A/VAC 40A/0VAC LEAKAE CURRENT <.ma/40vac OUTPUT TOTAL OUTPUT POWER 40W max. W max. 000W max. Thermal switch detect on the heatsink of power MOSFET OVER TEMPERATURE PROTECTION Protection type : Shut down o/p voltage, recovers automatically after temperature goes down FAN ALARM Output shutdown when FAN is malfunction FUNCTION REMOTE CONTROL RC+/RC-: 0 ~ 0.8V or Short, Power ON RC+/RC-: 4 ~ V or Open, Power OFF AUXILIARY POWER(AUX) V@0.A(only for Remote ON/OFF Control) ENVIRONMENT WORKIN TEMP. WORKIN HUMIDITY STORAE TEMP., HUMIDITY TEMP. COEFFICIENT VIBRATION -0 ~ +70 (Refer to "Derating Curve") 0 ~ 90% RH non-condensing -40 ~ +8, 0 ~ 9% RH ± 0.0%/ (0 ~ 0 ) 0 ~ 00Hz, 0min./cycle, min. each along X, Y, Z axes SAFETY STANDARDS UL90-, TUV EN90- approved SAFETY & WITHSTAND VOLTAE I/P-O/P:KVAC I/P-F:KVAC O/P-F:0.KVAC EMC ISOLATION RESISTANCE I/P-O/P, I/P-F, O/P-F:00M Ohms / 00VDC / / 70% RH (Note ) EMC EMISSION Compliance to EN0 (CISPR) Class B, EN00--,- OTHERS EMC IMMUNITY DIMENSION PACKIN Compliance to EN00-4-,,4,,6,8,, EN04, EN00-6-, EN4-, light industry level, criteria A 4*7*6.mm (L*W*H) 78*7*6.mm (L*W*H) 78*77.8*6.mm (L*W*H).8Kg(typ.); 6pcs /.8Kg /.CUFT.6Kg(typ.); 6pcs / 4Kg /.4CUFT Kg(typ.); 6pcs /9Kg /.74CUFT 6. Output Module SLOT Single Output (0W):MS-0 OUTPUT VOLTAE CODE MS-0A MS-0B MS-0C MS-0D MS-0E MS-0F MS-0 MS-0H MS-0I MS-0J MS-0K DC VOLTAE V.V V 7.V V V 8V 4V 7V V 48V RATED CURRENT A A A 8A A 0A 8.A 6.A.8A 4.7A.A CURRENT RANE 0 ~ A 0 ~ A 0 ~ A 0 ~ 8A 0 ~ A 0 ~ 0A 0 ~ 8.A 0 ~ 6.A 0 ~.8A 0 ~ 4.7A 0 ~.A PEAK LOAD Note.4 0A 0A 0A 0.7A A.A 9.8A 7.A 6.7A.4A.68A OUTPUT RATED POWER 0W 8.W W W 6W 0W W 6W 6.6W.W.6W (MS-0) RIPPLE & NOISE (max.) Note. 0mVp-p 80mVp-p 80mVp-p 00mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p VOLTAE ADJ. RANE.6 ~.6V.6 ~ 4V 4 ~ 6V 6 ~ 9V 9 ~.V. ~ 6.8V 6.8 ~ 0V 0 ~ 6.4V ~ V 0 ~ 40V 40 ~ V VOLTAE TOLERANCE Note. ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% LINE REULATION ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% LOAD REULATION ±.0% ±.0% ±.0% ±.0% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% SETUP, RISE, HOLD TIME 00ms, 0ms, 0ms at full load ~ 0% rated output power 6 ~ 0% rated output power PROTECTION OVER LOAD OVER VOLTAE Protection type : Constant current limiting, recovers automatically after fault condition is removed.7 ~ 4V 4. ~ V 6. ~ 7.V 9. ~.V. ~ 8V 6.9 ~ V 0. ~ 6V 6. ~ V. ~ 9V 40. ~ 48V. ~ V Protection type : Shut down o/p voltage, re-power on to recover FUNCTION REMOTE INHIBIT CONTROL RC+/RC-: 0 ~ 0.8V or OPEN, POWER ON RC+/RC-: 4 ~ V POWER OFF 0
SLOT Single output (0W) MS-0 OUTPUT VOLTAE CODE MS-0-A MS-0-B MS-0-C MS-0-D MS-0-E MS-0-F MS-0- MS-0-H MS-0-I MS-0-J MS-0-K DC VOLTAE V.V V 7.V V V 8V 4V 7V V 48V RATED CURRENT A A A 8A 7.A 4A.6A 8.7A 7.8A 6.4A 4.4A CURRENT RANE 0 ~ A 0 ~ A 0 ~ A 0 ~ 8A 0 ~ 7.A 0 ~ 4A 0 ~.6A 0 ~ 8.7A 0 ~ 7.8A 0 ~ 6.4A 0 ~ 4.4A PEAK LOAD Note.4 8.A 8.A 8.A.A 0.A 6.A.4A 0.A 9A 7.4A.A OUTPUT RATED POWER 70W.W 7W 0W 0W 0W 08.8W 0W 0.6W.W.W (MS-0) RIPPLE & NOISE (max.) Note. 0mVp-p 80mVp-p 80mVp-p 00mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p VOLTAE ADJ. RANE.6 ~.6V.6 ~ 4V 4 ~ 6V 6 ~ 9V 9 ~.V. ~ 6.8V 6.8 ~ 0V 0 ~ 6.4V ~ V 0 ~ 40V 40 ~ V VOLTAE TOLERANCE Note. ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% LINE REULATION ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% LOAD REULATION ±.0% ±.% ±.0% ±.0% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% SETUP, RISE, HOLD UP TIME 00ms, 0ms, 0ms at full load 0 ~ % rated output power 6 ~ 0% rated output power PROTECTION OVERLOAD Protection type : Constant current limiting, recovers automatically after fault condition is removed OVER VOLTAE.7 ~ 4V 4. ~ V 6. ~ 7.V 9. ~.V. ~ 8V 6.9 ~ V 0. ~ 6V 6. ~ V. ~ 9V 40. ~ 48V. ~ V Protection type : Shut down o/p voltage, re-power on to recover FUNCTION REMOTE INHIBIT CONTROL RC+/RC-: 0 ~ 0.8V or OPEN, POWER ON RC+/RC-: 4 ~ V POWER OFF SLOT Single Output (00W):MS-00 OUTPUT (MS-00) PROTECTION FUNCTION OUTPUT VOLTAE CODE DC VOLTAE RATED CURRENT CURRENT RANE PEAK LOAD Note.4 0A 0 ~ 0A 7.A 0A 0 ~ 0A 7.A 0A 0 ~ 0A 7.A 40A 0 ~ 40A 46A A 0 ~ A 9A 0A 0 ~ 0A A 6.7A 0 ~ 6.7A 9.A.A 0 ~.A 4.4A.A 0 ~.A.9A 9.A 0 ~ 9.A 0.A 6.A 0 ~ 6.A 7.A RATED POWER 00W 6W 0W 00W 00W 00W 00.6W 00W 0.4W 00.W 0.4W RIPPLE & NOISE (max.) Note. 80mVp-p 80mVp-p 80mVp-p 00mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p 00mVp-p 0mVp-p 00mVp-p VOLTAE ADJ. RANE.6 ~.6V.6 ~ 4V 4 ~ 6V 6 ~ 9V 9 ~.V. ~ 6.8V 6.8 ~ 0V 0 ~ 6.4V ~ V 0 ~ 40V 40 ~ V VOLTAE TOLERANCE Note. LINE REULATION LOAD REULATION ±.0% ±0.% ±.0% ±.0% ±0.% ±.0% ±.0% ±0.% ±.0% ±.0% ±0.% ±.0% ±.0% ±0.% ±0.% ±.0% ±0.% ±0.% ±.0% ±0.% ±0.% ±.0% ±0.% ±.0% ±.0% ±0.% ±.0% ±.0% ±0.% ±.0% ±.0% ±0.% ±.0% SETUP, RISE, HOLD TIME 00ms, 0ms, 0ms at full load 6 ~ 0% rated output power OVER LOAD Protection type : Constant current limiting, recovers automatically after fault condition is removed OVER VOLTAE MS-00-A MS-00-B MS-00-C MS-00-D MS-00-E MS-00-F MS-00- MS-00-H MS-00-I MS-00-J MS-00-K V.V V 7.V V V 8V 4V 7V V 48V ~ 4V 4. ~ V 6. ~ 7.V 9. ~.V. ~ 8V 6.9 ~ V 0. ~ 6V 6. ~ V. ~ 9V 40. ~ 48V. ~ V Protection type : Shut down o/p voltage, re-power on to recover REMOTE INHIBIT CONTROL RC+/RC-: 0 ~ 0.8V or OPEN, POWER ON RC+/RC-: 4 ~ V POWER OFF SLOT Single output (W) MS- OUTPUT (MS-) PROTECTION FUNCTION OUTPUT VOLTAE CODE DC VOLTAE MS--A MS--B MS--C MS--D MS--E MS--F MS-- MS--H MS--I MS--J MS--K V.V V 7.V V V 8V 4V 7V V 48V RATED CURRENT A A A 48A 0A 4A 0A A.4A A 7.A CURRENT RANE 0 ~ A 0 ~ A 0 ~ A 0 ~ 48A 0 ~ 0A 0 ~ 4A 0 ~ 0A 0 ~ A 0 ~.4A 0 ~ A 0 ~ 7.A PEAK LOAD Note.4 69A 69A 69A.A 4.A 7.6A A 7.A.A.7A 8.7A RATED POWER 0W 98W 00W W W W W W 6.8W 6W W RIPPLE & NOISE (max.) Note. 80mVp-p 00mVp-p 00mVp-p 00mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p 00mVp-p 0mVp-p 00mVp-p VOLTAE ADJ. RANE.6 ~.6V.6 ~ 4V 4 ~ 6V 6 ~ 9V 9 ~.V. ~ 6.8V 6.8 ~ 0V 0 ~ 6.4V ~ V 0 ~ 40V 40 ~ V VOLTAE TOLERANCE Note. ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% LINE REULATION ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% LOAD REULATION ±.0% ±.% ±.0% ±.0% ±0.% ±0.% ±0.% ±.0% ±.0% ±.0% ±.0% SETUP, RISE, HOLD UP TIME 00ms, 0ms, 0ms at full load 6 ~ 0% rated output power OVERLOAD Protection type : Constant current limiting, recovers automatically after fault condition is removed ~ 4V 4. ~ V 6. ~ 7.V 9. ~.V. ~ 8V 6.9 ~ V 0. ~ 6V 6. ~ V. ~ 9V 40. ~ 48V. ~ V OVER VOLTAE Protection type : Shut down o/p voltage, re-power on to recover REMOTE INHIBIT CONTROL RC+/RC-: 0 ~ 0.8V or OPEN, POWER ON RC+/RC-: 4 ~ V POWER OFF
SLOT Single output (7W) MS-7 OUTPUT VOLTAE CODE MS-7L MS-7M MS-7N MS-7O MS-7P MS-7Q DC VOLTAE.V V V V 4V 48V RATED CURRENT A A 6.A A.A.6A CURRENT RANE 0 ~ A 0 ~ A 0 ~ 6.A 0 ~ A 0 ~.A 0 ~.6A PEAK LOAD Note.4 7.A 7.A 7.A.8A.7A.8A OUTPUT RATED POWER 49.W 7W 7.6W 7W 76.8W 76.8W (MS-7) RIPPLE & NOISE (max.) Note. 80mVp-p 80mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p VOLTAE ADJ. RANE.6 ~ 4V 4 ~ 6V 9 ~.V. ~ 6.8V 0 ~ 6.4V 40 ~ V VOLTAE TOLERANCE Note. ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% LINE REULATION ±0.% ±0.% ±0.% ±0.% ±0.% ±0.% LOAD REULATION ±.0% ±.0% ±0.% ±0.% ±0.% ±0.% SETUP, RISE, HOLD UP TIME 00ms, 0ms, 0ms at full load 6 ~ 0% rated output power OVERLOAD Protection type : Constant current limiting, recovers automatically after fault condition is removed PROTECTION 4. ~ V 6. ~ 7.V. ~ 8V 6.9 ~ V 6. ~ V. ~ V OVER VOLTAE Protection type : Shut down o/p voltage, re-power on to recover FUNCTION REMOTE INHIBIT CONTROL RC+/RC-: 0 ~ 0.8V or OPEN, POWER ON RC+/RC-: 4 ~ V POWER OFF SLOT Isolated Dual output (00W) MD-00 OUTPUT VOLTAE CODE MD-00R MD-00S MD-00T MD-00U MD-00V MD-00W MD-00X DC VOLTAE V V V V V V 4V V 4V V V V V V RATED CURRENT 0A 8A 0A 4.A 0A.4A.A 8A.A.4A A.4A 4A.7A CURRENT RANE ~ 0A 0 ~ 8A ~ 0A 0 ~.8A ~ 0A 0 ~ 4.7A 0. ~ A 0 ~ 0A 0.6 ~ A 0 ~ 4.7A ~ A 0 ~.8A ~ 4.7A 0 ~ 4.7A RATED POWER Note.6 90W 00.4W 0W 00W 00.8W 00.8W 00.W OUTPUT RIPPLE & NOISE (max.) Note. (MD-00) 00mVp-p 00mVp-p 00mVp-p 0mVp-p 00mVp-p 0mVp-p 00mVp-p 00mVp-p 40mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p 0mVp-p VOLTAE ADJ. RANE 4.7 ~.V 4.7 ~.V 4.7 ~.V.4 ~.V 4.7 ~.V 4. ~ 6.V.8 ~ 6.4V 4.7 ~.V.8 ~ 6.4V.4 ~.V.4~.V.4~.V 4. ~ 6.V 4. ~ 6.V VOLTAE TOLERANCE Note. ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% LINE REULATION ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±0.% ±.0% ±0.% ±.0% ±0.% ±.0% LOAD REULATION ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% ±.0% SETUP, RISE, HOLD UP TIME 00ms, 0ms, 0ms at full load 0 ~ 0% rated output power OVERLOAD Protection type : Shut down o/p voltage, re-power on to recover PROTECTION.6 ~ 7.V.6 ~ 7.V.6 ~ 7.V. ~ 7V.6 ~ 7.V 6.6 ~ V 6. ~ 4V.6 ~ 7.V 6. ~ 4V. ~ 7V. ~ 7V. ~ 7V 6.6 ~ V 6.6 ~ V OVER VOLTAE Protection type : Shut down o/p voltage, re-power on to recover FUNCTION NOTE REMOTE INHIBIT CONTROL RC+/RC-: 0 ~ 0.8V or OPEN, POWER ON RC+/RC-: 4 ~ V POWER OFF