RCP-000 / RKP-U I n s t r u c t i o n M a n u a l
0.Safety Guidelines.Introduction of Series Models. Introduction. Features.3 Order Information.4 Main Specification.Mechanical Specification and Input / Output Terminals. Mechanism of Single Unit. Mechanism of Whole Rack System 3.Functions 3. Input Voltage Range 3. Inrush Current Limiting 3.3 Output Power 3.4 Power Factor Correction (PFC) 3.5 Output Voltage Adjustment 3. Fan Speed Control 3. Short Circuit Protection & Over Current Protection (O.C.P) 3.8 Over Voltage Protection (O.V.P.) 3.9 Over Temperature Protection (O.T.P.) And Over Temperature Alarm 3.0 AC OK Signal 3. DC OK Signal. 3. Fan Malfunction Protection & Alarm signals 3.3 Remote Control 3.4 Remote Sense 3.5 Hot-Swap Operation 3. Parallel Operation 3. Series Operation. 3.8 Auxiliary Output 3.9 PMBus communication interface 4.Notes on Operation 4. Installation Method 4. Derating 4.3 EMI test installation 4.4 Warranty 3 3 4 5 5 5 8 8 9 0 0 3 3 4 4 4
RCP-000,RKP-U Instruction Manual 0.Safety Guidelines Risk of electrical shock and energy hazard. All kinds of failure should be examined by a qualified technician. Please do not remove the case of the RCP-000 or RKP-U by yourself! Please do not change any component on the RCP-000 series by yourself or make any kind of modification on it. Please do not install the RCP-000 series in places with high moisture, high ambient temperature or under direct sunlight. The rated input voltage / frequency are 00~40VAC and 50/0 Hz. Please don't feed in AC power that over 0% of the rated value. Safety protection level of this unit is class I, The grounding wire should be firmly fixed at the "FG" terminal ( ) of the rack. The total leakage current of the rack system (including 3 * RCP-000 units and RKP-U rack) is less than 3.5mA..Introduction of Series Models. Introduction RCP series are rack-mounted power supplies that provide power source for telecom equipments, servers, or monitoring equipments in the 9" racks.. Features 44 mm low profile, suitable for standard U rack applications. Universal AC input / Full range. Built-in active PFC function, PF>0.98. Protections: short circuit / overload / over voltage / over temperature. Active current sharing up to 000W (3 units) in one 9" rack; up to 3 racks (9units maximum) can be connected in parallel. Remote control for single RCP-000 unit. Built-in remote sense function. Output voltage can be trimmed between 90~0% rated output voltage. Hot-swap operation. AC OK and DC OK signal output. Forced air cooling by built-in DC fan with fan speed control function. 5V/0.3 and V/0.8A auxiliary output. Built-in ORing MOSFETs. PM bus serial data transmission function. 3 years warranty..3 Order Information.3. Explanation for Encoding Single unit : RCP-000- Output voltage U rack : RKP-U I I: IEC30-C0 AC Inlet T: Terminal Block Whole system (3 * RCP-000 + RKP-U ) : RKP-KU I - Output voltage I: IEC30-C0 AC Inlet T: Terminal Block.3. Marking Please refer to the safety label on top of each unit before operating (Figure -~-3). Single unit (RCP-000): Figure- Safety labels of RCP-000
Rack (RKP-U ): 3 3 5 4 5 4 Whole system (3 * RCP-000 + RKP-U ): Figure-: Safety labels of RKP-U 3 5 4 3 5 4 Figure -3: Safety labels of the whole RCP system.4 Main Specification Single unit MODEL OUTPUT INPUT PROTECTI RCP-000- RCP-000-4 RCP-000-48 DC VOLTAGE RATED CURRENT CURRENT RANGE RATED POWER V 00A 0 ~ 00A 00W 4V 80A 0 ~ 80A 90W RIPPLE & NOISE (max.) Note. 50mVp-p 00mVp-p 4A 0 ~ 4A 0W 300mVp-p VOLTAGE ADJ. RANGE 0.5 ~ 4V ~ 8V 4 ~ 5V VOLTAGE TOLERANCE Note.3.0%.0%.0% LINE REGULATI LOAD REGULATI SETUP, RISE TIME.0%.0% 500ms, 0ms/30VAC at full load 0.5% 0.5% 0.5% 0.5% HOLD UP TIME (Typ.) ms/30vac at 5% load 0ms/30VAC at full load VOLTAGE RANGE Note.5 90 ~ 4VAC ~ 30VDC FREQUENCY RANGE 4 ~ 3Hz POWER FACTOR (Typ.) 0.98/30VAC at full load EFFICIENCY (Typ.) 8% 90.5% 9% AC CURRENT (Typ.) 3A/5VAC A/30VAC A/5VAC 0A/30VAC A/5VAC 0A/30VAC INRUSH CURRENT (Typ.) COLD START 50A LEAKAGE CURRENT <.ma / 30VAC 05 ~ 5% rated output power OVERLOAD Protection type : Constant current limiting, unit will shut down o/p voltage after 5 sec. re-power on to recover OVER VOLTAGE OVER TEMPERATURE 4. ~.5V 9.5 ~ 35V 5. ~.V Protection type : Shut down o/p voltage, re-power on to recover 80 5 (TSW) detect on heatsink of power bridge 85 5 (TSW) detect on heatsink of o/p diode Protection type : Shut down o/p voltage, recovers automatically after temperature goes down
MODEL OUTPUT INPUT FUNCTI ENVIRMENT SAFETY & EMC (Note 4) OTHERS NOTE Rack system MODULE RACK OUTPUT VOLTAGE MAX. OUTPUT CURRENT MAX. OUTPUT POWER Note. 300W VOLTAGE RANGE RKP-KU - RKP-KU -4 RKP-KU -48 RCP-000- RCP-000-4 RCP-000-48 RKP-UI or RKP-UT V 300A Note.5 90 ~ 4VAC ~ 30VDC FREQUENCY RANGE 4 ~ 3Hz AC CURRENT (Typ.)FOR EACH UNIT 3A/5VAC A/30VAC A/5VAC A/30VAC A/5VAC A/30VAC LEAKAGE CURRENT <3.5mA / 30VAC AUXILIARY POWER 5V @ 0.3A, V @ 0.8A REMOTE / CTROL By electrical signal or dry contact :short :open REMOTE SENSE DC OK SIGNAL AC OK SIGNAL OUTPUT VOLTAGE TRIM OVER TEMP WARNING FAN FAIL SIGNAL WORKING TEMP. WORKING HUMIDITY STORAGE TEMP., HUMIDITY TEMP. COEFFICIENT VIBRATI SAFETY STANDARDS WITHSTAND VOLTAGE ISOLATI RESISTANCE EMC EMISSI EMC IMMUNITY The isolated TTL signal out, refer to 3. The isolated TTL signal out, refer to 3.0-40 ~ +0 (Refer to "Derating Curve") 0 ~ 90% RH non-condensing -40 ~ +85, 0 ~ 95% RH 0.03%/ (0 ~ 50 ) 4V 40A 50W 0 ~ 500Hz, G 0min./cycle, 0min. each along X, Y, Z axes UL0950-, TUV EN0950- approved I/P-O/P:3KVAC I/P-FG:.5KVAC O/P-FG:0.KVDC DIMENSI Rack 483.*350.8*44(L*W*H) PACKING.5Kg; pcs/.5kg/.cuft A 048W Compensate voltage drop on the load wiring up to 0.5V. "Local Sense"should be connected in order to get the correct output voltage if the "Remote Sense"is not used Adjustment of output voltage, possible between 90 ~ 0% of rated output Logic " High" for over temperature warning, refer to 3.9, isolated signal The isolated TTL signal out, refer to 3. I/P-O/P, I/P-FG, O/P-FG:00M Ohms / 500VDC / 5 / 0% RH Compliance to EN550 (CISPR) Conduction Class B, Radiation Class A ; EN000-3-,-3 Compliance to EN000-4-,3,4,5,,8,, EN000-- (EN5008-), heavy industry level, criteria A.Mechanical Specification and Input / Output Terminals. Mechanism of Single Unit 4 95 4 CN50 SVR 4 DC OK Air flow direction 3 5 9 33 4 0 3 9 5 8 4 30 3 9 5 8 3 4 8 0 3 34 Figure - 3
Input / Output Connector Pin No. Assignment(CN50) : Postronic PCIM34W3M400A Pin No. Assignment Pin No. Assignment Pin No. Assignment Pin No. Assignment Pin No. Assignment Pin No. Assignment Mating Housing,,3,4 DA / NC T-ALARM 3 FG 5,,,8 3 DB 8 A 3 SDA 8 FAN-FAIL 33 AC/L Postronic 9 (signal) 4 +S 9 A 4 SCL 9 +5V-AUX 34 AC/N PCIM34W3F400A 0 (signal) 5 -S 0 A3 5 AC-OK 30 -AUX PV A0 A4 DC-OK 3 GND-AUX. Mechanism of Whole Rack System 4 5 3 RKP-UT ADDRESS SWITCH C ADDRESS SWITCH B - + ADDRESS SWITCH A JK JK 3 4 5 FG FG FG N N N L L L 0 8. 0 8 8. 0 8. 8 8 C ADDRESS SWITCH B ADDRESS SWITCH - + A ADDRESS SWITCH JK RKP-UI Mounting Bracket IEC30-C0 IEC30-C0 IEC30-C0 440 50 5 5 3-M5 L=mm 350.8 SVR SVR SVR 3-M5 L=mm 50 5 5 4 4 Air flow direction Module C Module B Module A 44. 0. 9.48 DC OK DC OK DC OK 4. 483..4 Figure - 4
Connector Pin No. Assignment of Pin No. Assignment Pin No. Assignment Pin No. Assignment Pin No. Assignment Pin No. Assignment /-A FAN FAIL-A T-ALARM-B /-C FAN FAIL-C AC-OK-A /-B FAN FAIL-B AC-OK-C +S 3 DC-OK-A 8 AC-OK-B 3 +5V-AUX 8 DC-OK-C 3 -S 4 PV-A 9 DC-OK-B 4 -AUX 9 PV-C 4 5 T-ALARM-A 0 PV-B 5 GND-AUX 0 T-ALARM-C 5 Connector Pin No. Assignment of JK Pin No. 3 4 Description of in/out connection pins Description of JK in/out connection pins 3.Functions Assignment DA DB CTROL Pin No. 5 8 Assignment NC SDA SCL GND-AUX Pin No. Function Description,, / Each unit can separately turn the output on and off by electrical signal or dry contact between / A,B,C(pin,,) and +5V-AUX(pin 5). Short:, Open:. (Note.),8, AC-OK Low : When the input voltage is 8Vrms. High : when the input voltage in 5Vrms. (Note.) 3,9,8 DC-OK High : When the Vout 80 5%. Low : When Vout 80 5%. (Note.) 4,0,9 5,,0 PV T-ALARM Connection for output voltage trimming. The voltage can be trimmed within its defined range. (Note.) High : When the internal temperature (TSW or TSW open) exceeds the limit of temperature alarm. Low : When the internal temperature (TSW or TSW short) under the limit temperature. (Note.),, FAN FAIL High When the internal fan is failure. Low When the internal fan is normal operating. (Note.) 3 +5V-AUX Auxiliary voltage output, 4.3~5.3V, referenced to GND-AUX (pin 5). The maximum load current is 0.3A. This output has the built-in "Oring diodes" and is not controlled by the remote / control. 4 -AUX Auxiliary voltage output, 0.8~3.V, referenced to GND-AUX (pin 5). The maximum load current is 0.8A. This output has the built-in "Oring diodes" and is not controlled by the remote / control. 5 GND-AUX Auxiliary voltage output GND. The signal return is isolated from the output terminals ( & ). +S Positive sensing. The +S signal should be connected to the positive terminal of the load. The +S and -S leads should be twisted in pair to minimize noise pick-up effect. The maximum line drop compensation is 0.5V. 3 -S 4 5 Pin No., 3 4 5 8 Function DA,DB CTROL NC SDA SCL GND-AUX Negative sensing. The -S signal should be connected to the negative terminal of the load. The -S and +S leads should be twisted in pair to minimize noise pick-up effect. The maximum line drop compensation is 0.5V. Positive output voltage. For local sense use only, cann't be connected directly to the load. Negative output voltage. For local sense use only, cann't be connected directly to the load. Description Differential digital signal for parallel control. (Note.) Negative output voltage. For parallel control, cann't be connected directly to the load. Remote / control pin used in the PMBus interface. (Note.) Not use. Serial Data used in the PMBus interface. (Note.) Serial Clock used in the PMBus interface. (Note.) Auxiliary voltage output GND. The signal return is isolated from the output terminals ( & ). Note.: Non-isolated signal, referenced to the output terminals (). Note.: Isolated signal, referenced to GND-AUX. 3. Input Voltage Range Nominal input voltage range is AC 90~4V or DC ~30V. 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 RCP Series have built-in active PFC circuit, there will be lower efficiency and output derating is required when operating at lower input voltage, referenced to 4. Derating. 3. 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. 5
3.3 Output Power Single Unit RCP-000- : 00W (V / 00A) RCP-000-4 : 90W (4V / 80A) RCP-000-48 : 0W ( / 4A) Whole System RKP-KU - : 300W (V / 300A) RKP-KU -4 : 50W (4V / 40A) RKP-KU -48 : 048W ( / A) 3.4 Power Factor Correction (PFC) Built-in active power factor correction (PFC) function. Under full load output and the input voltage is within the range of 90~ 30Vac, PF>0.98; if the output is less than full load or the input voltage is higher than 30Vac, the PF value will be a little less than 0.98. 3.5 Output Voltage Adjustment 3.5. Adjustment of single unit Output voltage of one RCP-000 is adjustable through the potentiometer (SVR, can be found under the small circular hole on top of the unit). Please use a cross-screwdriver with isolated holder to make the adjustment. 3.5. Adjustment of single unit or the whole rack system Output voltage can be adjusted between 90%~0% of rated value by adding external voltage source. Please refer to Figure 3- for details. When the output is tuned to a higher voltage, please notice that the load current should be decreased accordingly. The output wattage of each unit should not exceed its rated value under any circumstances. 3.5.3 Adjustment of the whole rack system with a external 0~5Vdc source(use output voltage trimming function) ()Connect the external DC voltage source between PV (pin 4,0,9) and (pin 5) on connector, as Figure 3- shows. ()Output voltage can be adjusted between 90%~0% of rated value. The relationship between output voltage and external DC voltage source and the relationship between output current and output voltage refer to Figure 3-. (3)When the output is tuned to a higher voltage, please notice that the load current should be decreased accordingly. The output wattage of each unit should not exceed its rated value under any circumstances. PV 4,0,9 5 0~5V Figure 3- Connection for the external DC voltage source Output Voltage (%) Vout 0 00 90 80 0 0 Output Current(%) 00 90 80 0 0 0 0.5.5 3 4.5 5 V 0 80 90 00 0 V External voltage(dc) Output Voltage(%) Figure 3-3. Fan Speed Control Built-in fan speed control circuit. The fan speed will be adjusted according to the magnitude of output load. 3. Short Circuit Protection & Over Current Protection (O.C.P.) Protection comes into effect at short circuit condition or >5% 0% of output rated current (constant current limiting mode).the PSU will automatically recover once the short circuit / over current condition is removed. 3.8 Over Voltage Protection (O.V.P.) Built-in over voltage protection circuit for each RCP-000 unit. The O.V.P. triggering points are different for different output models. Please refer to the specification sheet for details. The PSU shuts down when O.V.P. is triggered. To restart the power supply, please switch off AC input first and then wait for 0 seconds before switching it back on.
3.9 Over Temperature Protection (O.T.P.) And Over Temperature Alarm Built-in sets of over temperature protection circuit. When the internal temperature exceeds the threshold value, the power supply will shut down automatically (the built-in fan will still operate to cool down the PSU). You should switch off the AC input 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. When the internal temperature reaches 0, the limit of temperature alarm, the red LED on the front panel will flicker and there will be an alarm signal sent out through the PM bus interface (refer to 3.9). Even so, the power supply is still normal operating. When the internal temperature is within safe limit, there will be a "Low" signal (0~0.5V) between "T-ALARM" and "GND-AUX" on connector; When the internal temperature exceeds the threshold value, there will be a "High" signal (4.5~5.5V) between "T-ALARM" and "GND-AUX" on connector. 3.0 AC OK Signal Built-in AC input voltage detecting circuit. When AC input voltage 8Vrms, the output voltage can start to work properly and there will be a "Low" signal (0~0.5V) between "AC-OK" and "GND-AUX" on connector. When AC input voltage 5Vrms, the output voltage will be shut down and the red LED on the front panel will light up. In the mean time, there will be a "High" signal (4.5~5.5V) between "AC-OK" and "GND-AUX" on connector. 3. DC OK Signal Built-in DC output voltage detecting circuit. When DC output voltage 80% 5% of rated value, the green LED on the front panel will light up (see Figure 3-3). In the mean time, there will be a "Low" signal (0~0.5V) between "DC-OK" and "GND-AUX" on connector. When DC output voltage 80% 5% of rated value, the red LED on the front panel will be turned on. In the mean time, there will be a "High" signal (4.5~5.5V) between "DC-OK" and "GND-AUX" on connector. Figure 3-3: Front panel of RCP-000 3. Fan Malfunction Protection & Alarm Signals Built-in fan malfunction protection circuit. When the DC fan stop operating (fan lock or wire broken), the output will be shutdown. In the mean time, there will be a "High" signal (4.5~5.5V) between "FAN FAIL" and "GND-AUX" on connector. Please switch off the AC source and send back to our local distributor or MEAN WELL for repair. 3.3 Remote Control Built-in remote / control circuit. Please refer to Figure 3-4 for single unit or whole rack system control. Notice that the "/" and "GND-AUX" pin on should be short connected in order to let the PSU operate properly. If it is open, the output voltage will be shut down. RKP-U DC OK / A / B / C SW RKP-U / A / B / C SW Between / and +5V-AUX SW Open Output Status +5V-AUX 3 +5V-AUX 3 SW Short Whole rack system / Single unit / Figure 3-4 Connection for remote / control operation 3.4 Remote Sense Built-in remote sense circuit that can compensate voltage drop up to 0.5V. When using this function, the sensing wires should either be twisted or shielded to prevent external noise interference (refer to Figure 3-5). The voltage drop across the output wires must be limited to less than 0.5V. 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. Notice: It is required to use the "Remote Sense" function to let the PSU work properly. If not, the "Local Sense" is still required that "+S" should be shorted to "" and "-S" to "" as Figure 3-. Or the output voltage will be too high, which may trigger the over voltage protection.
RKP-U +S -S LOAD Sense lines should be twisted in pairs Figure 3-5 Connection for using the "Remote Sense" function RKP-U +S -S 4 3 5 Figure 3- Connection for using the "Local Sense" function 3.5 Hot-Swap Operation Built-in "Oring MOSFET" in every RCP-000 unit that the single unit can be hot-swapped without turning off the AC source providing to the whole rack system. Insert the RCP-000 unit: Grasp the handle and push inside the rack through the rail. Pull out the RCP-000 unit: Press the clip shown in Figure 3- and pull the unit out. Clip DC OK Figure3- Location of the "clip" on RCP-000 unit 3. Parallel Operation 3.. Operation of single rack Internal parallel operation in single rack is only suitable for using the same RCP-000 unit (single unit with the same output voltage and current). Each rack (RKP-U ) have the built-in parallel connection / wiring. Once the RCP-000 unit insert in the rack then the parallel connection is done. Under parallel operation, the connection of other functions can refer to section 3.3 & 3.4. 3.. Operation of three racks in parallel Parallel operation is only suitable for the same RCP-000 unit (single unit with the same output voltage and current) located in up to 3 racks. Totally 9 identical single units which operate in parallel is the maximum. Under parallel operation, the total output current should not exceed 90% of the sum of rated currents. For example: RCP-000-4 x 9 connected in parallel (in 3 racks), the maximum output current should be 80A x 9 unit x 0.9 = 48A Adjust the output voltage of all the single units to the value you need and minimize the differences to less than % among one another before operating in parallel. Please parallel the racks first and then connect to the load (refer to Figure 3.8). Do not connect each rack to the load separately! The control signals DA, DB, should also be connected in parallel. (refer to Figure 3.8) Twisted wires should be used for the wiring of +S and -S. To avoid the interference, the twisted wires should not touch the load wires. (refer to Figure 3.8) A too long cable length might be with a higher amount of noise that affects rack units' proper operation in parallel. To reduce the noise, installing termination resistors, an accessory, to the unused JKs is recommended. 8
0 0 03 3 0 0 JK DA DB RKP-U# +5V-AUX / -A / -B } / -C 0 0 03 3 0 0 JK DA DB RKP-U# +5V-AUX / -A / -B } / -C +S -S Twisted wires LOAD 0 0 03 3 0 0 JK DA DB RKP-U#3 +5V-AUX / -A / -B } / -C Figure3-8 Three racks connected in parallel Under parallel operation of more than one rack connecting together, ripple of the output voltage may be higher than the SPEC at light load condition. It will go back to normal ripple level once the output load is more than 0%. 3. Series Operation Higher output voltage can be acquired by connecting different racks in series. The racks (RKP-U ) connected in series should have the same single unit (RCP-000- ) in each rack. Please refer to Figure 3-9 for the reference connection method. Output current for series connection should not exceed the smallest rated current of all series connecting racks. The difference in rise times of individual rack will lead to steps/stairs like turn on. The output voltage after series connection should be less than 0Vdc [the requirement of SELV(Safety Extra Low Voltage) of IEC0950-]. It is suggested to add on external diodes (*) shown in Figure 3-9 to prevent the reverse voltage. Rating of these diodes should higher than the total amount of output voltage and current. RKP-U# / A / B / C +5V-AUX 3 +S -S 3 (*) LOAD RKP-U# / A / B / C +5V-AUX 3 +S -S 3 (*) Figure 3-9 Operating in series connection 9
3.8 Auxiliary Output Built-in 5V/0.3A and V/0.8A auxiliary output for each rack. 3.9 PMBus communication interface RCP-000 is compliant with PMBus Rev.., the maximum communication speed is 00KHz, which allows up to 3 units to be addressed. Through the PMBus interface, users can obtain the operation information of the power supply, including.output voltage, output current, and internal temperature of the power supply..alarm and status information. 3.Manufacturing and model information. RKP-CMU is a monitor unit particularly designed for RCP-000. Users can easily monitor operating parameters of each power supply unit by means of LCD interface or a computer. 3.9. PMBus Device Addressing Each RCP-000 unit should have its own device address and not the identical to communicate over the PM bus. RCP-000 uses seven bit addresses to set device address as described below. MSB LSB 0 A4 A3 A A A0 A0~A4 are used to select the PM bus address via a 5-pole DIP switch on the rear panel of RKP-U. The "" position represents logic "0" while the "" position represents logic "".Refer to Table 3- for the description of the DIP switch setting. 3 4 5 Module No. Device address Device address A0 A A A3 A4 Module A0 A A A3 A4 DIP switch position No. DIP switch position 3 4 5 3 4 5 0 8 3 9 4 0 5 3 8 4 9 5 0 8 3 9 4 30 5 3 Table 3-3.9. PMBus Command List Table 3- shows the command list of RCP-000. It is compliant with industry standard PMBus protocol Rev... For more details about the information, you can refer to PMBus official web ( http://pmbus.org/specs.html). Command Code 0h OPERATI Command Name Transaction Type R/W Byte # of data Bytes Description Remote / control 0h CFIG Read Byte / function configuration 9h 0h CAPABILITY VOUT_MODE Read Byte Capabilities of a PMBus device Define data format for output voltage (format: Linear, N= -9) h VOUT_COMMAND R Word Output voltage setting value (format: Linear, N= -9) 0
Command Code h 4h 4h 9h Ah Bh Ch Dh 80h 8h 88h 8Bh 8Ch 90h 9h 98h 99h 9Ah 9Bh 9Ch 9Dh 9Eh VOUT_TRIM Command Name IOUT_OC_FAULT_LIMIT IOUT_OC_FAULT_RESPSE STATUS_WORD STATUS_VOUT STATUS_IOUT STATUS_INPUT STATUS_TEMPERATURE STATUS_MFR_SPECIFIC STATUS_FANS READ_VIN READ_VOUT READ_IOUT READ_FAN_SPEED_ READ_FAN_SPEED_ PMBUS_REVISI MFR_ID MFR_MODEL MFR_REVISI MFR_LOCATI MFR_DATE MFR_SERIAL Transaction Type R/W Word R/W Word R Word R Word R Word R Word # of data Bytes 8Dh READ_TEMPERATURE_ R Word R Word R Word Block Read Block Read Block Read Block R/W Block R/W Block R/W 3 Description Output voltage trimming value (format: Linear, N= -9) Output overcurrent setting value Define protection and response when an output overcurrent fault occurred Summary status reporting Output voltage status reporting Output current status reporting AC inpit voltage statusreporting Temperature status reporting Manufacture specific status reporting Fan and status reporting AC input voltage reading value (format: Linear, N=-) Output voltage reading value (format: Linear, N= -9) Output current reading value (format: Linear, N= -3) Temperature reading value (format: Linear, N= -3) Fan speed reading value (format: Linear, N= 4) Fan speed reading value (format: Linear, N= 4) The compliant revision of the PMBus (default: h for Rev..) Manufacturer's name Manufacturer's model name Firmware revision Manufacturer's factory location Manufacture date. (format: YYMMDD) Product serial number Table 3-3.9.3 PMBus range and tolerance Display parameters PMBus command READ_VIN READ_VOUT READ_IOUT READ_TEMPERATURE_ READ_FAN_SPEED_ READ_FAN_SPEED_ Model ALL V 4V V 4V ALL ALL ALL Range 0 ~ 4V 0 ~ 4V 0 ~ 8V 0 ~ 5V 0 ~ 5A 0 ~ 00A 0 ~ 50A 0 ~ 00 0 ~ 0000RPM 0 ~ 0000RPM Tolerance 0V 3% 3% 3% 5A 4A A 5 000RPM 000RPM Table 3-3
Control parameters PMBus command Model Adjustable range Tolerance Default OPERATI ALL 00h() / 80h() N/A 80h() V V N/A V VOUT_COMMAND (Note) 4V 4V N/A 4V N/A V -.5 ~ V 5% 0V VOUT_TRIM (Note) 4V -3 ~ 4V 5% 0V - ~ 8V 5% 0V V 30 ~ A 5A A IOUT_OC_FAULT_LIMIT 4V 4 ~ 89.A 4A 89.A. ~ 4A 3A 4A Table 3-4 Note: Output voltage is sum of the values of VOUT_COMMAND and VOUT_TRIM. The value of VOUT_COMMAND is fixed and cannot be altered, while the value of VOUT_TRIM can be changed and trimmed. Take RCP-000- for example, the VOUT_COMMAND is fixed at V and the VOUT_TRIM can be trimmed to -.5, so the total output voltage is 0.5V. Adjustment range of each model shows below: Model V 4V Adjustment range 0.5 ~ 4V ~ 8V 4 ~ 5V Table 3-5 3.9.4 PMBus monitoring notes.rkp-cmu can be used to remotely control RCP-000 by the command of "PMBus OPERATI" or connecting up the physical pins of "PMBus CTROL" and "RKP-U /" to +5V-AUX. In order to let RKP-CMU operate properly, the pin of RKP-U / connecting to +5V-AUX should be opened. Refer to Table 3- for the output control of RCP-000 shows. RKP-U / pin PMBus CTROL pin PMBus OPERATI command RCP-000 output state Connect to +5V-AUX Open 80h () Connect to +5V-AUX Connect to +5V-AUX 80h () Open Open 80h () Open Connect to +5V-AUX 80h () Don't care Don't care 00h () Table 3-.If RCP-000 is restarted, the parameters of output voltage and output current you have set will return to initial default values. 3.If PMBus is offline(such as RCP-CMU- shutdown),the parameters of OPERATI, VOUT_TRIM, and IOUT_OC_ FAULT_LIMIT you have set will return to initial default values. 4.When IOUT_OC_FAULT_LIMIT is being used to reduce the over-current point, this just can limit the output current of RCP-000 and does not trigger over-current protection. Take RCP-000-48 for example, the over-current protection point is 4A when operating at 30Vac. If you set the IOUT_OC_FAULT_LIMIT to be 40A, the over-current point will be 40A. It is less than 4A, so over-current protection will not be triggered. 5.If the set value of IOUT_OC_FAULT_LIMIT is higher than Low Line Power Derating, this will trigger derated over-current protection. Take RCP-000-48 for example, the over-current protection point decreases by 5% to 35.A when operating at 00Vac. If you set the IOUT_OC_FAULT_LIMIT to be 40A, this will trigger over-current protection due to the lower over-current protection point.
4.Notes on Operation 4. Installation Method The RKP-U should be mounted in the 9" rack first. Insert ~3 pieces of RCP-000 (with the same output voltage and current) into the RKP-U (refer to Figure 4-). Definition of module position: A is on the right, B is in the middle, and C is on the left (refer to Figure 4-). This is a power supply with built-in DC fan and please make sure the ventilation is not blocked. It is suggested that there should be no barriers within 0cm of the ventilation holes. Connect AC source to the AC input for A, B, C. module position respectively depending on the RCP-000 units assembled into the RKP-U rack. Please refer to Table 4- about the suggested wire selection for input / output wirings. 4 5 3 Frame Ground AC Input(C) ADDRESS ADDRESS ADDRESS SWITCH SWITCH DC Output SWITCH - + C AC Input(B) B AC Input(A) A JK RKP-UT JK FG FG FG N N N L L L 0 8. 0 8 8. 0 8. 3 4 5 AC Input(C) AC Input(B) AC Input(A) ADDRESS ADDRESS ADDRESS SWITCH SWITCH DCOutput SWITCH C B - + A JK 8 8 RKP-UI Mounting Bracket IEC30-C0 IEC30-C0 IEC30-C0 440 50 5 5 3-M5 L=mm 350.8 SVR SVR SVR 3-M5 L=mm 50 5 5 4 4 Air flow direction Module C Module B Module A 44. 0. 9.48 DC OK DC OK DC OK 4. 483..4 Figure 4- System assembly diagram of RCP series 3
Input /Output 5VAC 30VAC DC +4VDC +DC Module unit unit unit unit 3 unit unit unit 3 unit unit unit 3 unit Other commonly used wiring Current Arms 0Arms 00Adc 00Adc 300Adc 80Adc 0Adc 40Adc 4Adc 84Adc Adc Minimum Cross-section of Copper Wire 4AWG UL05 8AWG UL05 mm 0mm 5mm mm 50mm 80mm 5.5mm mm 30mm AWG UL05 AWG UL05 0AWG UL05 30mm 50mm 0mm 80mm 00mm 5mm 50mm 00mm 50mm Maximum Current A A 5A A 344A 5A 90A 40A 49A 5A 39A 8A A 35A 39A 90A A 5A 98A 344A 395A 49A 55A Table 4- Suggested wire selection for input / output wirings 4. Derating Output load derating is required for proper operation in high ambient temperature or at low AC input voltage. Please refer to Figure 4- for details. 00 00 90 80 0 30VAC Input only 80 5 0 V LOAD(%) 50 40 0 LOAD(%) 5 50 40 4V, -40-5 -0 0 5 30 50 0 0 (HORIZTAL) 90 00 5 80 4 AMBIENT TEMPERATURE ( ) INPUT VOLTAGE (VAC) 0Hz Figure 4- Output derating curves for RCP 000 series 4.3 EMI test installation EMI radiation test affected by wiring, attaching an EMI suppressor(ferrite core) to the AC cable as close as possible to the AC inlet to reduce noise is recommend. There are compatible models including TDK HF0RU*9*3S, NEC ESD-SR-50H, and EROCORE FH9.*3*5.9. 4.4 Warranty Three years of global warranty is provided for RCP-000 series/ RKP-U under normal operation. Please do not change any component or modify the unit by yourself or MEAN WELL may reserve the right not to provide the complete warranty service. 4