Embedded Power for Business-Critical Continuity SXX06E Rev. 08.01.06 Page 1 of 2 Rev. 05.26.08 MTC600 Series 1 of 19 MicroTCA MTC600 Series 600 Watts Total Power: # of Channels: 600 Watts 16 Product Description General Special Features • 600 W output power • 16 Channels of • 12 V @ 7.6 A max • 3.3 V @ 150 mA max • Supports: • 12x AMC's • 2x MCH's • 2x CU's • Supports N+1 output redundancy, N≤3 • Supports 1+1 input redundancy Compliance • PICMG MicroTCA.0 (Revision 1.0) • PICMG HPM.1 Firmware Upgrade (Revision 1.0) Safety UL, cUL 60950-1 CSA 60950-1 VDE 60950-1 The MTC600 series of Power Modules are designed for use in MicroTCA systems and can support shelves, cube and other implementations and is compliant to PICMG MicroTCA .0 Revision 1.0 specification. The MTC600 Power Modules implement the functionality necessary to power, manage and protect a MicroTCA system comprising up to: • 12x AdvancedMCs • 2x MicroTCA Carrier Hubs • 2x Cooling Units The MTC600 Power Modules will: • On system bring-up, provide the power necessary for MCH and CU system elements. • Support redundant IPMI (IPMB-0) communication with the MCH/ Carrier-Manager • Under the command of the carrier manager, enable and provide power to AMCs, CUs and additional MCHs • Monitor and Report power system status and conditions of operation • Manage and isolate faults affecting the power system Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 2 of 19 Product Description (continued) Input Power Module Input Connector Power Module Input Connector -48V_A -48V_B Fusing ORing EMI Filtering Filtering EMI Transient Suppression Suppression Transient Inrush Limiting Inrush Limiting Holdup Holdup Monitoring & Control Power Conversion 12V 3.3V MCHMCH (2X) Power Channel Power CU CU(2x) Power PowerChannel AMC AMC(12x) Power PowerChannel PWR PWRON PWR MP MP EN# EN# PS1# PS1# PWRON PWR PWR MP MP EN# EN# PS1# PS1# PWR MP MP EN# EN# PS1# PS1# PWR Power Module Output Connector IPMB-0 IPMB -0 PM PMtotoPM Comm Comm JTAG JTAG Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 3 of 19 Electrical Specifications Input -48 Vdc Models Input Range (Operating) Input Range (Non-operating) -39.5 to -72 Vdc 0 to -39.5 Vdc -72 to -75 Vdc Supports -48 V and -60 V battery plants Power Module may or may not operate in part of this range, but will not be damaged Input Fusing Internal 24 A Fuses In both A & B feeds and A & B return lines Input ORing Internal In both A & B feeds and A & B return lines Inrush Current ≤80 A For t < 1 ms Input Current 12.8 A 18.2 A Typical with 600 W out, -54.0 Vin Maximum with 600 W out, -39.5 Vin Holdup Time 5 ms 7 ms 10 ms 10 ms Minimum at 600 W with one PM Typical at 600 W with one PM Typical at 400 W with one PM Minimum at 600 W with two PMs UnderVoltage Lockout Reverse Polarity Protection 39.5 ±1.0 V 37.0 ±1.0 V Included Turn-On voltage Turn-Off voltage Protected against reverse polarity over magnitude of specified input range AC Models Input Range (Operating) 90 to 264 Vac Supports typical worldwide single-phase inputs Input Range (Non-operating) 0 to 90 Vac 264 to 282 Vac Power Module may or may not be operating in part of this range, but will not be damaged Frequency Input Fusing Inrush Current Power Factor Harmonics 47 to 63 Hz Internal 15 A Fuses ≤45 A 0.99 typical I2t integral compatible with 15 A fast-blow fuse Meets EN61000-3-2 <2.30 Arms (odd) <1.08 Arms (even) Input Current 2.95 A 6.6 A Holdup Time 16.7 ms 20 ms UnderVoltage Lockout 87 ± 2.5 V 83 ± 2.5 V OverVoltage Lockout 282 Vac Typical with 600 W out, 230 Vac Maximum with 600 W out, 110 Vac At 110 Vac, 60 Hz At 230 Vac, 50 Hz Turn-On voltage Turn-off voltage Power Module will turn-off if input voltage exceeds this voltage and not turn on until input voltage is reduced below this level Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 4 of 19 Electrical Specifications (continued) Output - All Models (continued) 12 V Outputs (Payload Power)1,2 Management Power Interdependence Setpoint Total Regulation Range Rated Load Minimum Load Output Rise TIme (per channel) Output Noise (PARD)3 Output Voltage Overshoot Transient Response 12 V will not be applied without 3.3 V applied to a load Removal of 3.3 V also removes 12 V and de-asserts ENABLE# 12.6 Vdc typical 11.8 Vdc typical Configured as Primary PM Configured as Redundant PM 12.25 to 12.95 Vdc 11.60 to 12.00 Vdc Configured as Rrimary PM Configured as Redundant PM 600 W maximum 80 W / 7.6 A maximum Per Power Module, input voltage ≥110 Vac Per load channel No load No loss of regulation ≥110 Vrms 25 ms maximum With 1600 μF on output under test 75 mV maximum 100 mV maximum 0 to 30 MHz 0 to 100 MHz 2% maximum 3% maximum deviation 2 ms recovery time Referenced to setpoint 2 A loadstep @ 1 A/μs Referenced to load current and setpoint at onset of transient. Recovery time to within 1% of setpoint at onset of transient Voltage Sag 1.00 V maximum Primary PM to redundant PM transition with maximum of 80 W load per output or 600 W load per PM Short Circuit Protection 9.7 A maximum 10 ms maximum Output to return Channel Fault Operation (Output to Return) 12V Payload Power Output under fault is shutdown. 3V3 MP on the same channel is not affected. The other channels are not affected Channel Fault Operation (Output to Output) No damage to Power Module PS1# Extraction Delay Reflected Ripple Tolerance on Cooling Unit Outputs4 After removal of fault, the output channel is available again under control of the Carrier Manager. PM_OK# is not de-asserted and redundant failover is not initiated Either or both outputs may shut down until fault is removed 100 μs maximum Time from de-assertion of PS1# to disabling of the channel outputs and de-assertion of the ENABLE# signal 100 mV pk-pk 0.8 A pk-pk Tolerance of Power Module to ripple generated by fans or motors connected to Payload Power on Cooling Units Note 1: All channels and outputs must be configued by the carrier manager with the exception of MCH and CU channels and outputs which are configured during Startup and/or autonomous operation, Note 2: All measurements are made at the output connector of the Power Module. Unless otherwise specified,specs apply to all AMC, MCH, and CU outputs. Note 3: Measured with a 0.1 μF ceramic and 10 μF tantalum capacitor on any output and oscilloscope bandwidth set for 200 MHz. Note 4: Consult with the factory if other outputs are expected to product significant ripple current. Embedded Power for Business-Critical Continuity Electrical Specifications (continued) Rev. 05.26.08 MTC600 Series 5 of 19 Output - All Models (continued) 3.3 V Outputs (Management Power) 5,6 Payload Power Interdependence Setpoint Total Regulation Range Rated Load Minimum Load 3.3 V must be applied before 12 V Removal of 3.3 V also removes 12 V and de-asserts ENABLE# 3.3 Vdc typical 3.16 to 3.63 Vdc 8 W maximum 0.5 W / 150 mA maximum No load Per Power Module Per load channel No loss of regulation Output Rise TIme (per channel) 25 ms maximum With 150 μF on output under test Output Noise (PARD)3 50 mV maximum 75 mV maximum 0 to 30 MHz 0 to 100 MHz Output Voltage Overshoot Transient Response 2% maximum Referenced to setpoint 3% maximum deviation 2 ms recovery time 37.5 mA loadstep @ 1 A/μs Referenced to load current and setpoint at onset of transient. Recovery time to within 1% of setpoint at onset of transient Voltage Sag 150 mV maximum Primary PM to redundant PM transition with max of 80 W load per output or 600 W load per PM Short Circuit Protection 225 mA maximum 12 ms maximum Output to return Channel Fault Operation (Output to Return) Output channel under fault is shutdown. Both 3.3V and 12V are removed and ENABLE# is de-asserted. The other channels are not affected Channel Fault Operation (Output to Output) No damage to Power Module PS1# Extraction Delay 100 μs maximum After removal of fault, the output channel is available again under control of the Carrier Manager. PM_OK# is not de-asserted and redundant failover is not initiated Either or both channels may shut down until fault is removed Time from de-assertion of PS1# to disabling of the channel outputs and de-assertion of the ENABLE# signal Note 5: All channels and outputs must be configued by the carrier manager with the exception of MCH and CU channels and outputs which are configured during Startup and/or autonomous operation. Note 6: All measurements are made at the output connector of the Power Module. Unless otherwise specified,specs apply to all AMC, MCH, and CU outputs. Embedded Power for Business-Critical Continuity Electrical Specifications (continued) Rev. 05.26.08 MTC600 Series 6 of 19 Output - All Models (continued) General Turn-on Time 4 seconds maximum After power-on of the PM, the time for autonomous outputs to reach regulation band Early Power Supported PM supports Early Power requirements referenced in MicroTCA.0 Rev 1.0 Section 4.4.11.1 Normal Power Supported PM supports Normal Power requirements referenced in MicroTCA.0 Rev 1.0 Section 4.4.11.2 Autonomous Operation Supported PM supports Autonomous Operation requirements referenced in MicroTCA.0 Rev 1.0 Section 4.4.11.3 Supported [GA2,GA1,GA0] = 101, or [GA2,GA1,GA0] = 110 LED1 displays yellow In Diagnostic Mode PM disables the IPMI controls and slots are powered up based only on PSI# signals Diagnostic Mode Redundancy7 Hot-Swap Operation (controlled) Supported Removal or addition of a PM will not cause a fault or out-of-regulation condition Hot-Swap Operation (uncontrolled) Supported Removal or addition of a PM will not cause a fault or out-of-regulation condition Power Module Failover Supported When configured as a redundant PM, the PM is capable of accepting the load of a failed PM within specified voltage magnitude and timing parameters Fault Isolation Supported A fault in one PM will not cause the shutdown of another PM Note 7: All specifications in the redundancy sub-section assume the system is populated with Power Modules with the same manufacturer's model numbers or otherwise compatible Power Modules. At the time of print, PICMG does not have a formal methodology for verifying compatibility. Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 7 of 19 Electrical Specifications (continued) Input Signals - All models Geographic Address: GA0, GA1, GA2 Internal pull ups to 3.3 V. Source current limited by 11 Kohm (300 μA with GAx at 0.0 V) MIN Logic Level Low - VIL Logic Level High- VIH MAX 0.5 V 1.63 V PS1_[SLOT]#: PS1_M1, PS1_M2, PS1_CU1, PS1_CU2, PS1_1, ...PS_12 Internal pull ups to 3.3 V. Source current limited by 10 Kohm (330 uA with PS1_[SLOT]# at 0.0 V) MIN Logic Level Low Voltage - VIL Logic Level High Voltage - VIH MAX 1.1 V 2.6 V PWRON_[MCH]: PWRON_MI, PWRON_M2 Internal 10 Kohm pull down. Compatible with MicroTCA.0 R1.0 Section A.5.4 MIN Logic Level Low - VIL Logic Level High - VIH MAX 0.5 V 1.63 V RST_PM_IN#: RST_PM_IN# MIN Logic Level Low - VIL Logic Level High - VIH MAX 0.6 V 2.4 V PMP_[x]#: PMP_A#, PMP_B#, PMP_C# Internal pull up to 3.3 V. Source current limited by 10 Kohm (330 uA with PMP_[x]# at 0.0 V) MIN Logic Level Low Voltage - VIL Logic Level High Voltage - VIH MAX 0.5 V 1.63 V PS_PM#: PS_PM# Internal pull up to 3.3 V. Source current limited by 10 Kohm MIN Logic Level Low Voltage - VIL Logic Level High Voltage - VIH MAX 0.6 V 2.4 V Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 8 of 19 Electrical Specifications (continued) Output Signals - All Models EN1_[SLOT]#: EN1_M1, EN1_M2, EN1_CU1, EN1_CU2, EN1_1, EN1_2...EN1_12 Open collector output. Isink, max=10 mA. No internal current limit MIN MAX Logic Level Low Voltage - VOL 0.8 V Voltage Withstand - Vmax 5.5 V PM_OK#: PM_OK# Open collector output, Isink max = 10 mA. No current limit MIN MAX Logic Level Low Voltage - VOL 0.8 V Voltage Withstand - Vmax 5.5 V RST_PM_[x]#: RST_PM_A#,RST_PM_B#,RST_PM_C# Open collector output, Isink, max = 10 mA. No current limit MIN MAX Logic Level Low Voltage, - VOL 0.8 V Voltage Withstand - Vmax 5.5 V Shared Signals - All Models SMP: SMP Compliant to MicroTCA.0 R1.0 Section 4.6.5.4.3, requirements 4.221-4.225 Voltage Range MIN MAX 4.5 V 6V Isink 750 mA Isource 350 mA Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 9 of 19 Electrical Specifications (continued) I2C Interface - All Models Operating Parameters I2C Operating Voltage I2C Operating Frequency 3.3 V Nominal 100 kHz SDA_[x]: SDA_A, SDA_B Internal pull ups to 3.3 V. Source current limited by 10 Kohm (330 μA with SDA_[x] at 0.0 V). Bufferede to support hot-swap MIN Logic Level Low - VIL Logic Level High - VIH MAX 0.7 V 2.70 V SCL_[x]: SCL_A, SCL_B Internal pull ups to 3.3 V. Source current limited by 10 Kohm (330 uA with SCL_[x] at 0.0 V). Buffered to support hot-swap. MIN Logic Level Low Voltage - VIL Logic Level High Voltage - VIH MAX 0.7 V 2.70 V Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 10 of 19 IPMB-0 Interface PM-EMMC Functionality A PM-EMMC is implemented per MicroTCA.0 R1.0 requirements 4.116 through 4.120 IPM Device IPMB Interface PM-EMMC aggregates IPMB-A and IPMB-B IPMI v1.5 protocol SDR Repository Sensors Implements mandatory 2 temp sensors; Implements voltage and current senors Watchdog Timer Implements a watchdog timer for resetting PM's own PM-EMMC FRU Inventory Initialization Agent PM-EMMC is responsible for initializing it's own event generation and sensors Internal Event Generation External Event Generation Events sent over IPMB-0 Power Channel Mapping Power Channel Management Power Payload Power PS1# ENABLE# Autonomous Power 1, 2 MP_M1, MP_M2 PP_M1, PP_M2 PS1_M1#, PS1_M2# EN_M1#, EN_M2# Depends on PWRON_ M1, PWRON_M2 3, 4 MP_CU1, MP_CU2 PP_CU1, PP_CU2 PS1_CU1#, PS1_CU2# EN_CU1#, EN_CU2# Yes 5-16 MP_1 - MP_12 PP_1 - PP_12 PS1_# - PS1-12# EN_1# - EN_12# No Supported Commands Global Commands NetFN App Request=06h; Response=07h Command CMD Note Get Device ID 01h As defined in IPMI v1.5; Broadcast Get Device ID not supported Cold Reset 02h As defined in IPMI v1.5 Command CMD Note Set Event Receiver 00h As defined in IPMI v1.5 Get Event Receiver 01h As defined in IPMI v1.5 Platform Event 02h As defined in IPMI v1.5 Event Commands NetFN S/E Request=04h; Response=05h Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 11 of 19 IPMB-0 Interface (continued) Supported Commands (Continued) Sensor Device Commands NetFN S/E Request=04h; Response=05h Command CMD Note Get Device SDR Info 20h As defined in IPMI v1.5 Get Device SDR 21h As defined in IPMI v1.5 Reserve Device SDR Repository 22h As defined in IPMI v1.5 Set Sensor Hysteresis 24h As defined in IPMI v1.5 Get Sensor Hysteresis 25h As defined in IPMI v1.5 Set Sensor Threshold 26h As defined in IPMI v1.5 Get Sensor Threshold 27h As defined in IPMI v1.5 Get Sensor Reading 2Dh As defined in IPMI v1.5 Command CMD Note Get FRU Inventory Area Info 10h As defined in IPMI v1.5 Read FRU Data 11h As defined in IPMI v1.5 Write FRU Data 12h As defined in IPMI v1.5 CMD Note FRU Device Commands NetFN Storage Request=0Ah; Response=0Bh PICMG Commands NetFN Storage Request=2Ch; Response=2Dh Command Get PICMG Properties 00h As defined in MicroTCA.0 R1.0 Get FRU LED Properties 05h As defined in PICMG3.0 R2.0 (ATCA) Get LED Color Capabilities 06h As defined in PICMG3.0 R2.0 (ATCA) Set FRU LED State 07h As defined in PICMG3.0 R2.0 (ATCA) Get FRU LED State 08h As defined in PICMG3.0 R2.0 (ATCA) Set IPMB State 09h As defined in PICMG3.0 R2.0 (ATCA) Get Device Locator Reader ID 0Dh As defined in PICMG3.0 R2.0 (ATCA) Get IPMB Link Info 18h As defined in PICMG3.0 R2.0 (ATCA) Command CMD Note Power Channel Control 24h As defined in MicroTCA.0.0 R1.0 Get Power Channel Status 25h As defined in MicroTCA.0.0 R1.0 PM Reset 26h As defined in MicroTCA.0.0 R1.0 Get PM Status 27h As defined in MicroTCA.0.0 R1.0 PM Heartbeat 28h As defined in MicroTCA.0.0 R1.0 MicroTCA Commands NetFN PICGMG Request=2Ch; Reponse=2Dh Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 12 of 19 IPMB-0 Interface (continued) Sensors - Mandatory per PICMG and Related Standards Event and Status Sensors These sensors are implemented according to the requirements and specifications of the relevant standards. Sensor Name Sensor Number Management Controller Device Locator 00h Power Channel Notification 01h PM Status 02h IPMB Physical Link 03h Hot Swap 04h Temperature Sensors All temperature sensors have an accuracy of 5%. All temperature sensors have an offset of -40 °C. Sensor Name Sensor Number Resolution Applicable Models Hotspot Temperature 05h 1 °C / bit All Ambient Temperature 06h 1 °C / bit All Assertion/Deassertion Comparison Returned Settable/Readable Upper Non-Recoverable Yes Yes R Upper Critical Yes Yes S/R Upper Non-Critical Yes Yes S/R Lower Critical Yes Yes S/R Lower Non-Critical Yes Yes S/R Sensor Number Resolution Applicable Models 12 Volt 07h 100 mV / bit All 3V3 Volt 08h 50 mV / bit All 5 V Volt 09h 50 mV / bit All Assertion/Deassertion Comparison Returned Settable/Readable Upper Critical Yes Yes S/R Lower Critical Yes Yes S/R Sensor Number Resolution Applicable Models 12 V Current 0Ah 0.5 A / bit All 3V3 Volt 0Bh 50 mA / bit All Assertion/Deassertion Comparison Returned Settable/Readable Yes Yes S/R Thresholds Sensors - Non-Mandatory per PICMG and Related Standards Internal Voltage Sensors All voltage sensors have an accuracy of 2%. Sensor Name Thresholds Internal Current Sensors All current sensors have an accuracy of 2%. Sensor Name Thresholds Upper Critical Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 13 of 19 IPMB-0 Interface (continued) Sensors - Non-Mandatory per PICMG and Related Standards (continued) Input Voltage Sensors All voltage sensors have an accuracy of 2%. Sensor Name Sensor Number Resolution Applicable Models AC Input Voltage 0Ch 2.0 V / bit MTC600-AC only DC Input Votlage A 0Ch 0.5 V / bit MTC600-48 only DC Input Voltage B 0Dh 0.5 V / bit MTC600-48 only DC Input Or-ed 0Eh 0.5 V / bit MTC600-48 only Assertion/Deassertion Comparison Returned Settable/Readable Upper Critical Yes Yes S/R Lower Critical Yes Yes S/R Lower Non-Recoverable Yes Yes R Sensor Number Resolution Applicable Models AC Input Current 0Dh 100 mA / bit MTC600-AC only DC Input Current 0Fh 100 mA / bit MTC600-48 only Assertion/Deassertion Comparison Returned Settable/Readable n/a n/a n/a Thresholds Input Current Sensors All current sensors have an accuracy of 2%. Sensor Name Thresholds No thresholds implemented Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 14 of 19 Environmental Specifications Temperature and Altitude Derating8 60 m below to 1800 m above sea level Condition Temperature Load -45 ˚C to +70 ˚C - Cold Start -20 ˚C to -5 ˚C Any valid condition Normal Operation -5 ˚C to 45 ˚C 100% Short Term Operation9 45 ˚C to 55 ˚C Linear derating to 80% at 55 ˚C Temperature Load -45 ˚C to +70 ˚C - Cold Start -20 ˚C to -5 ˚C Any valid condition Normal Operation -5 ˚C to 35 ˚C 35 ˚C to 45 ˚C 100% System dependent Short Term Operation9 45 ˚C to 55 ˚C System dependent Storage Non-Operating 1800 m to 4000 m above sea level Condition Storage Non-Operating Other Environmental Criteria Specification Reference 5% - 95%, non-condensing GR-63-CORE, R4-7; IEC 60068-2-56, 2-30 0.1 g @ 5-100 Hz and back to 5 Hz at a rate of 0.1 octave/min or 1.5 g @ 100-500 Hz with 0.25 octave/min; 1.5 mm @ 2-9 Hz, 0.5 g @ 9-200 Hz GR-63-CORE, R4-58, R4-59; IEC 60068-2-6, 2-36 Shock 4 g @ 22 ms IEC 60068-2-27, 2-29 Drop Packaged: 450 mm drop height; Unpackaged: 25 mm drop height; Transportation: 1.2 m free fall GR-63-CORE, R4-8, R4-9 IEC 60068-2-32 Relative Hunidity Vibration Fire Resistance All material UL 94V-1 or better Standards Compliance for Telecommunications Applications The Power Module will not hinder system compliance to the following environmental specifications: • • • • • • Telcordia GR-63-CORE Telcordia GR-1089-CORE NEBS Level 3, per SR-3580 ETS300 019-1-1, Part 1-1 (Class 1.2E equipment) ETS300 019-1-2, Part 1-2 (Class 2.3 equipment) ETS300 019-1-3, Part 1-3 (Class 3.2 equipment) Note 8: 12 CFM airflow for -48 V model; 15 CFM airflow for AC model. Note 9: Short Term Operation defined as total period of not more than 96 consecutive hours and total of not more than 15 days in 1 year. Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 15 of 19 Electromagnetic Compatibility All Models Radiated Emissions Standard Limits & Test Parameters EN55022, Class A Per Section 6 GR-1089-CORE Per Section 3.2 Frequency Range Criteria 3 MHz to 1 GHz N/A 10 KHz to 10 GHz N/A Conducted Emissions EN55022, Class A Per Section 6 150 KHz to 30 MHz N/A GR-1089-CORE Per Section 3.2 10 KHz to 30 MHz N/A Impulsive B 80 MHz to 1GHz A 150 KHz to 80 MHz A -100% for 10 ms @ 0°; -100% for 10 ms @ 180°; -60% for 100 ms; -30% for 500 ms; -100% for 5 s Impulsive B,C 5/50 ns 5 KHz pulse 1 KV direct Impulsive B 1.2/50 μsec pulse 2 KV Line to Earth 1 KV Line to Line Impulsive B 5/50 ns 5 KHz pulse 500 V direct Impulsive B 1.2/50 μsec pulse 500 V Line to Earth 500 V Line to Line Impulsive B ElectroStatic Discharge EN61000-4-2 8 KV Contact, 15 KV Air discharge Radiated Immunity EN61000-4-3 10 V/m (level measure unmodulated) 80% AM, 1 KHZ Conducted Immunity EN61000-4-6 3 V (level measured unmodulated) 80% AM, 1HKz Voltage Dips & Interruptions EN61000-4-11 AC Models Fast Transients EN61000-4-4 Surge EN61000-4-5 -48 Vdc Models Fast Transients EN61000-4-4 Surge EN61000-4-5 Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 16 of 19 Mechanical Specifications (continued) Front Panel - MTC600-48 Front Panel - MTC600-AC Input Connector: Positronics QB7W2MN7T2, FCI 10070158, or equivalent Input Connector: IEC 320-C14, or equivalent Mating Connector: Positronics QB7W2F00QH0/AA, FCI 10070165, or equivalent Mating Connector: IEC 320-C13, or equivalent Pinout: P1: Return P2: -48 V 1: Not Used 2: Not Used Pinout: L: Line N: Neutral G: Ground Front Panel Drawing for DC-input unit Front Panel Drawing for AC-input unit Green/Red LED -48_B Blue LED Green/Red LED -48_A General - MTC600-48 General - MTC600-AC Weight: 25 oz. (700 grams) typical Weight: 30 oz. (850 grams) typical Blue LED Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 17 of 19 Mechanical Specifications (continued) Output Connector Pin Description Output Connector: EPT P/N 501-50096-183, Tyco P/N 1469922-1, or equivalent Mating Connector: EPT P/N 502-50096-183, Tyco P/N 1469920-1, or equivalent Pinout PP_x Payload Power (12V) for AMC/MCH/CU x MP_x Mgmt Power (3.3V) for AMC/MCH/CU x GND Output Return PS_PM# Last Mate Pin GAx Geographical address line x PM_OK# PM Present and OK [Output] PMP_x# PM x Present and OK [Input] RST_PM_IN# Resets PM EMMC [Input] RST_PM_x# Reset signal from PM x [Output] P1 PP_M1(2nd Mate) PP_1(2nd Mate) P13 PWR_ON_Mx Power-On signal from MCH x P2 PP_CU1(2nd Mate) PP_2(2nd Mate) P14 PS1_x# Detects Presence of AMC/MCH/CU x P3 PP_CU2(2nd Mate) PP_3(2nd Mate) P15 EN_x# Enables (E)MMC of AMC/MCH/CU x P4 GND(1st Mate) PP_4(2nd Mate) P16 SCL_x I2C Clock Line for Bus x P5 GND(1st Mate) PP_5(2nd Mate) P17 SDA_x I2C Date Line for Bus x P6 GND(1st Mate) PP_6(2nd Mate) P18 P7 GND(1st Mate) PP_7(2nd Mate) P19 P8 GND(1st Mate) PP_8(2nd Mate) P20 P9 GND(1st Mate) PP_9(2nd Mate) P21 P10 GND(1st Mate) PP_10(2nd Mate) P22 P11 GND(1st Mate) PP_11(2nd Mate) P23 P12 PP_M2(2nd Mate) PP_12(2nd Mate) P24 1 PS_PM# (Last Mate) PM_OK# (3rd Mate) PS1_M1# (3rd Mate) PS1_CU1# (3rd Mate) EN_M1# (3rd Mate) EN_CU1# (3rd Mate) MP_M1# (3rd Mate) MP_CU1# (3rd Mate) 2 N/C PMP_A# (3rd Mate) PS1_2# (3rd Mate) PS1_1# (3rd Mate) EN_2# (3rd Mate) EN_1# (3rd Mate) MP_2# (3rd Mate) MP_1# (3rd Mate) 3 N/C PMP_B# (3rd Mate) PS1_4# (3rd Mate) PS1_3# (3rd Mate) EN_4# (3rd Mate) EN_3# (3rd Mate) MP_4# (3rd Mate) MP_3# (3rd Mate) 4 N/C PMP_C# (3rd Mate) PS1_6# (3rd Mate) PS1_5# (3rd Mate) EN_6# (3rd Mate) EN_5# (3rd Mate) MP_6# (3rd Mate) MP_5# (3rd Mate) 5 N/C RST_PM_IN# (3rd Mate) PS1_8# (3rd Mate) PS1_7# (3rd Mate) EN_8# (3rd Mate) EN_7# (3rd Mate) MP_8# (3rd Mate) MP_7# (3rd Mate) 6 N/C RST_PM_A# (3rd Mate) PS1_10# (3rd Mate) PS1_9# (3rd Mate) EN_10# (3rd Mate) EN_9# (3rd Mate) MP_10# (3rd Mate) MP_9# (3rd Mate) 7 GA0 (3rd Mate) RST_PM_B# (3rd Mate) PS1_12# (3rd Mate) PS1_11# (3rd Mate) EN_12# (3rd Mate) EN_11# (3rd Mate) MP_12# (3rd Mate) MP_11# (3rd Mate) 8 GA1 (3rd Mate) RST_PM_C# (3rd Mate) PS1_M2# (3rd Mate) PS1_CU2# (3rd Mate) EN_M2# (3rd Mate) EN_CU2# (3rd Mate) MP_M2# (3rd Mate) MP_CU2# (3rd Mate) 9 GA2 (3rd Mate) SMP (3rd Mate) SCL_B (3rd Mate) SDA_B (3rd Mate) SCL_A (3rd Mate) SDA_A (3rd Mate) PWR_ON_M2 (3rd Mate) PWR_ON_M2 (3rd Mate) A B C D E F G H Embedded Power for Business-Critical Continuity Rev. 05.26.08 MTC600 Series 18 of 19 Mechanical Specifications MTC600-48 7.37 (187.25) 0.18 (4.55) 2.89 (73.5) 0.63 (16) 15.24 (0.6) 15.24 (0.6) MTC600-AC 7.37 (187.25) 2.89 (73.50) 3.22 (81.4) 2.34 (59.40) Embedded Power for Business-Critical Continuity SXX06E Ordering Information Power Level MTC ppp 600 = 600 W Input Voltage vv 48 = -48 Vdc AC = 90-264 Vac Redundant rr RR = Redundant Input and Redundant Output NR = NonRedundant Input and Redundant Output Rev. 08.01.06 Page 1 of 2 Americas Channel Count Width nn w 16 = 16ch S = Single Width Height h 9 = 9 HP 1 = 12 HP MTC600-48RR16S9J 600 W, -48 Vin, Redundant I/P, Redundant O/P, 16 channel, SW 9 HP MTC600-ACNR16S1J 600 W, AC-in, Non-Redundant I/P, Redundant O/P, 16 channel, SW 12 HP Reserved xx For modified standards J Rev. 05.26.08 MTC600 Series 19 of 19 5810 Van Allen Way Carlsbad, CA 92008 USA Telephone: +1 760 930 4600 Facsimile: +1 760 930 0698 Europe (UK) Waterfront Business Park Merry Hill, Dudley West Midlands, DY5 1LX United Kingdom Telephone: +44 (0) 1384 842 211 Facsimile: +44 (0) 1384 843 355 Asia (HK) 16th - 17th Floors, Lu Plaza 2 Wing Yip Street, Kwun Tong Kowloon, Hong Kong Telephone: +852 2176 3333 Facsimile: +852 2176 3888 For global contact, visit: www.astecpower.com www.artesyn.com [email protected] [email protected] While every precaution has been taken to ensure accuracy and completeness in this literature, Emerson Network Power assumes no responsibility, and disclaims all liability for damages resulting from use of this information or for any errors or omissions. Printed in U.S.A. Issue SF3 Emerson Network Power. The global leader in enabling business-critical continuity. AC Power Connectivity DC Power Embedded Power Inbound Power Integrated Cabinet Solutions Outside Plant Precision Cooling Site Monitoring and Services EmersonNetworkPower. com This is a Preliminary Datasheet. Emerson Network Power reserves the right to make changes to the information contained herein without notice and assumes no liability as a result of its use or application. Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co. ©2006 Emerson Electric Co.