MVTM36BH045M020A00

Select Devices are End of Life Refer to page 5 VTM™ Current Multiplier MIL-COTS MVTM36 Series S C NRTL US High Efficiency, Sine Amplitude Converter™ Features & Benefits Product Ratings • Family of MIL-COTs current multipliers covering output voltages from 1 to 50VDC „ Operating from MIL-COTs PRM™ modules • High efficiency reduces system power consumption • VI Chip® package enables surface-mount or through-hole, low impedance interconnect to system board • ZVS/ZCS resonant Sine Amplitude Converter topology • Less than 50°C temperature rise at full load in typical applications Typical Applications • Land/Air/Sea Unmanned Vehicles/Drones • Scanning Equipment • Radar VOUT = 1.0 – 50.0V (various models) IOUT = up to 80A The VI Chip® current multiplier is a high‑efficiency Sine Amplitude Converter™ (SAC™) operating from a 26 to 50VDC primary bus to deliver an isolated output. The Sine Amplitude Converter offers a low AC impedance beyond the bandwidth of most downstream regulators, which means that capacitance normally at the load can be located at the input to the Sine Amplitude Converter. This allows for a reduction in point‑of‑load capacitance of typically >100x which results in a saving of board area, materials and total system cost. The VTM current multiplier is provided in a VI Chip package compatible with standard pick-and-place and surface mount assembly processes. The co-molded VI Chip package provides enhanced thermal management due to large thermal interface area and superior thermal conductivity. With high conversion efficiency the VTM current multiplier increases overall system efficiency and lowers operating costs compared to conventional approaches. The VTM current multiplier enables the utilization of Factorized Power Architecture™ providing efficiency and size benefits by lowering conversion and distribution losses and promoting high density point‑of‑load conversion. • Mobile Weapons • Hybrid Vehicles VTM™ Current Multiplier Page 1 of 31 POUT = up to 150W Product Description • High density provides isolated regulated system and saves space • Contains built-in protection features against: „ Overvoltage „ Overcurrent „ Short Circuit „ Overtemperature VIN = 26 – 50V Rev 1.5 01/2022 Select Devices are End of Life Refer to page 5 MVTM36 Series Typical Application PRM AL RSC CSC ROS RCD SC VH OS TM VTM VOUT VTM Start Up Pulse and Temperature Feedback CD +OUT VC VC IL TM 0.01µF PC PC 10K PR RVC RDF SGND VIN 16 V to 50 V +IN F1 +OUT CIN –IN SGND +IN LF 1 VF: 26 V to 50 V –OUT GND CF 1 –OUT –IN PRIMARY SECONDARY ISOLATION BOUNDRY SEC_GND SGND 1 Using the MIL-COTs PRM™, the output of the VTM is regulated over the load current range with only a single interconnect between the PRM and VTM and without the need for isolation in the feedback path. VTM™ Current Multiplier Page 2 of 31 Rev 1.5 01/2022 Select Devices are End of Life Refer to page 5 MVTM36 Series Pin Configuration (Full) 1 2 TOP VIEW 3 4 A’ +OUT B’ -OUT C’ +OUT D’ -OUT A +IN TM B VC C PC D -IN E Full VIC SMD Pin Description (Full) Pin Number Signal Name Type A1, A2 +IN INPUT POWER B1, B2 TM OUTPUT C1, C2 VC INPUT Connect to 12V source to power internal VTM control circuits. D1, D2 PC BIDIR Enables power supply when allowed to float high; 5V during normal operation E1, E2 –IN INPUT POWER RETURN A’3, A’4, C’3, C’4 +OUT OUTPUT POWER Positive output power terminal B’3, B’4, D’3, D’4 –OUT OUTPUT POWER Positive output power terminal RETURN VTM™ Current Multiplier Page 3 of 31 Function Positive input power terminal Provides voltage proportional to internal VTM controller temperature; “power good” flag Negative input power terminal Rev 1.5 01/2022 Select Devices are End of Life Refer to page 5 MVTM36 Series Pin Configuration (Half) 1 +IN TOP VIEW 2 4 3 A E A’ +OUT B’ -OUT IM B C TM VC D E PC -IN F Half VIC Pin Description (Half) Pin Number Signal Name Type A1, A2 +IN INPUT POWER B1 IM OUTPUT Provides voltage proportional to load current. C2 TM OUTPUT Provides voltage proportional to internal VTM controller temperature; “power good” flag D1 VC INPUT Connect to 12V source to power internal VTM control circuits. E2 PC BIDIR Enables power supply when allowed to float high; 5V during normal operation F1, F2 –IN INPUT POWER RETURN Negative input power terminal A’3, A’4 +OUT OUTPUT POWER Positive output power terminal B’3, B’4 -OUT OUTPUT POWER RETURN Positive output power terminal VTM™ Current Multiplier Page 4 of 31 Function Positive input power terminal Rev 1.5 01/2022 Select Devices are End of Life Refer to page 5 MVTM36 Series Part Ordering Information Part Number Package Type MVTM36BF015M080A00 F = Full VIC SMD MVTM36BT015M080A00 T = Full VIC TH MVTM36BF022M055A00 F = Full VIC SMD MVTM36BT022M055A00 T = Full VIC TH MVTM36BF030M040B00 F = Full VIC SMD MVTM36BT030M040B00 T = Full VIC TH MVTM36BF045M027A00 F = Full VIC SMD MVTM36BT045M027A00 T = Full VIC TH MVTM36BF060M020A00 F = Full VIC SMD MVTM36BT060M020A00 T = Full VIC TH Status Input Voltage K Output Voltage Output Current Active 26.0 – 50.0V 1/24 1.50V (1.08 – 2.08V) 80A End of Life 26.0 – 50.0V 1/16 2.25V (1.63 – 3.13V) 55A Active 26.0 – 50.0V 1/12 3.00V (2.17 – 4.17V) 40A Active 26.0 – 50.0V 1/8 4.50V (3.25 – 6.25V) 27A Active 26.0 – 50.0V 1/6 6.00V (4.33 – 8.33V) 20A Active 26.0 – 50.0V 1/5 7.20V (5.20 – 10.0V) 17A Active 26.0 – 50.0V 1/4 9.00V (6.50 – 12.5V) 13A Active 26.0 – 50.0V 1/3 12.0V (8.67 – 16.7V) 10A Active 26.0 – 50.0V 1/2 18.0V (13.0 – 25.0V) 7A Active 26.0 – 50.0V 2/3 24.0V (17.3 – 33.3V) 5A Active 26.0 – 50.0V 1 36.0V (26.0 – 50.0V) 3A MVTM36BF072M017A00 F = Full VIC SMD MVTM36BT072M017A00 T = Full VIC TH MVTM36BF090M013A00 F = Full VIC SMD MVTM36BT090M013A00 T = Full VIC TH MVTM36BF120M010A00 F = Full VIC SMD MVTM36BT120M010A00 T = Full VIC TH MVTM36BF180M007A00 F = Full VIC SMD MVTM36BT180M007A00 T = Full VIC TH MVTM36BF240M005A00 F = Full VIC SMD MVTM36BT240M005A00 T = Full VIC TH MVTM36BF360M003A00 F = Full VIC SMD MVTM36BT360M003A00 T = Full VIC TH MVTM36BH030M025A00 H = Half VIC SMD Active 26.0 – 50.0V 1/12 3.00V (1.63 – 3.13V) 25A MVTM36BH045M020A00 H = Half VIC SMD Active 26.0 – 50.0V 1/8 4.50V (3.25 – 6.25V) 20A MVTM36BH090M010A00 H = Half VIC SMD Active 26.0 – 50.0V 1/4 9.00V (6.50 – 12.5V) 10A All products shipped in JEDEC standard high-profile (0.400in thick) trays (JEDEC Publication 95, Design Guide 4.10). VTM™ Current Multiplier Page 5 of 31 Rev 1.5 01/2022 Temperature Grade Option M = –55 to 125°C 00 = Standard Select Devices are End of Life Refer to page 5 MVTM36 Series Absolute Maximum Ratings The absolute maximum ratings below are stress ratings only. Operation at or beyond these maximum ratings can cause permanent damage to the device. Parameter Comments Min Max Unit +IN to –IN –1.0 60 VDC PC to –IN –0.3 20 VDC TM to –IN –0.3 7 VDC VC to –IN –0.3 20 VDC 0 3.15 VDC 2250 VDC IM to –IN Half Chip only +IN / –IN to +OUT / –OUT (hipot) General Electrical Characteristics Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Attribute Input Voltage Range Symbol VIN VIN Slew Rate dVIN/dt Output Voltage Ripple VOUT_PP Conditions / Notes Min Typ Max No external VC applied 26 50 VC applied 0 50 1 COUT = 0F, IOUT = Full Load, VIN = 48V, 20MHz BW 5 Unit VDC V/µs % VOUT Protection Overvoltage Lockout VIN_OVLO+ Module latched shut down Overvoltage Lockout Response Time Constant tOVLO Output Overcurent Trip Short Circuit Protection Trip Current Output Overcurrent Response Time Constant tOCP Effective internal RC filter (integrative) Short Cicuit Protection Response Time tSCP From detection to cessation of switching (instantaneous) Thermal Shut-Down Set Point Reverse Inrush Current Protection VTM™ Current Multiplier Page 6 of 31 52.0 Effective internal RC filter 56.0 58.5 V 8 µs IOCP 120 % IOUT_AVG ISCP 150 % IOUT_AVG 3.8 ms 1 µs TJ_OTP 125 Reverse Inrush protection disabled for this product Rev 1.5 01/2022 130 135 °C Select Devices are End of Life Refer to page 5 MVTM36 Series Model Specific Electrical Characteristics Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit 7.5 W MVTM36BF015M080A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) Output Current (Peak) Efficiency (Ambient) VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/24 VOUT = VIN • K – IOUT • ROUT V IOUT_AVG IOUT_PK ηAMB V/V tPEAK < 10ms, IOUT_AVG ≤ 80A VIN = 36V, IOUT = 80A 90.0 VIN = 26 – 50V, IOUT = 80A 87.3 80 A 120 A 91.3 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 80A 0.40 0.76 1.0 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 80A 0.55 0.98 1.4 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 80A 0.65 1.18 1.5 mΩ 1.50 1.60 1.70 MHz 3.00 3.20 3.40 MHz Switching Frequency Output Ripple Frequency fSW fSW_RP MTBF VC Internal Resistor MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile 5.0 MHrs Telcordia Issue 2 - Method 1 Case 1; Ground Benign, Controlled 6.7 MHrs 2 kΩ RVC-INT MVTM36BF022M055A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) Output Current (Peak) Efficiency (Ambient) 8.6 VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/16 VOUT = VIN • K – IOUT • ROUT V IOUT_AVG IOUT_PK ηAMB W V/V tPEAK < 10ms, IOUT_AVG ≤ 55A VIN = 36V, IOUT = 55A 92.6 VIN = 26 – 50V, IOUT = 55A 88.8 55 A 82 A 93.7 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 55A 0.6 1.1 1.8 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 55A 0.8 1.4 1.9 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 55A Switching Frequency Output Ripple Frequency 1.0 1.7 2.2 mΩ fSW 1.36 1.43 1.50 MHz fSW_RP 2.72 2.86 3.00 MHz MTBF VC Internal Resistor VTM™ Current Multiplier Page 7 of 31 MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile 1.9 MHrs Telcordia Issue 2 - Method 1 Case 1; Ground Benign, Controlled 6.0 MHrs 1.0 kΩ RVC-INT Rev 1.5 01/2022 Select Devices are End of Life Refer to page 5 MVTM36 Series Model Specific Electrical Characteristics (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit 12.0 W MVTM36BF030M040B00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) Output Current (Peak) Efficiency (Ambient) VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/12 VOUT = VIN • K – IOUT • ROUT V IOUT_AVG IOUT_PK ηAMB V/V tPEAK < 10ms, IOUT_AVG ≤ 40A VIN = 36V, IOUT = 40A 92.5 VIN = 26 – 50V, IOUT = 40A 90.2 40 A 60 A 94.0 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 40A 1.0 1.6 2.3 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 40A 1.5 2.2 3.0 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 40A 2.0 2.6 3.3 mΩ 1.36 1.43 1.50 MHz 2.72 2.86 3.00 MHz Switching Frequency Output Ripple Frequency fSW fSW_RP MTBF VC Internal Resistor MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile 3.8 MHrs Telcordia Issue 2 - Method 1 Case 1; Ground Benign, Controlled 9.5 MHrs 1.0 kΩ RVC-INT MVTM36BF045M027A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) Output Current (Peak) Efficiency (Ambient) 7.0 VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/8 VOUT = VIN • K – IOUT • ROUT V IOUT_AVG IOUT_PK ηAMB W V/V tPEAK < 10ms, IOUT_AVG ≤ 27A VIN = 36V, IOUT = 27A 93.0 VIN = 26V to 55 V, IOUT = 27A 89.3 27 A 40 A 94.7 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 27A 2.5 4.6 5.9 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 27A 3.8 6.0 7.8 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 27A Switching Frequency Output Ripple Frequency 4.5 7.1 9.0 mΩ fSW 1.10 1.21 1.30 MHz fSW_RP 2.20 2.42 2.60 MHz MTBF VC Internal Resistor VTM™ Current Multiplier Page 8 of 31 MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile 3.8 MHrs Telcordia Issue 2 - Method 1 Case 1; Ground Benign, Controlled 9.5 MHrs 1.0 kΩ RVC-INT Rev 1.5 01/2022 Select Devices are End of Life Refer to page 5 MVTM36 Series Model Specific Electrical Characteristics (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit 14.0 W MVTM36BF060M020A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) Output Current (Peak) Efficiency (Ambient) VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/6 VOUT = VIN • K – IOUT • ROUT V IOUT_AVG IOUT_PK ηAMB V/V tPEAK < 10ms, IOUT_AVG ≤ 20A VIN = 36V, IOUT = 20A 94.6 VIN = 26 – 50V, IOUT = 20A 92.0 20 A 30 A 95.5 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 20A 3.0 7.0 9.0 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 20A 5.0 8.0 10.0 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 20A 6.0 12.0 15.0 mΩ 1.47 1.52 1.57 MHz 7.94 3.04 3.14 MHz Switching Frequency Output Ripple Frequency fSW fSW_RP MTBF VC Internal Resistor MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile 4.3 MHrs Telcordia Issue 2 - Method 1 Case 1; Ground Benign, Controlled 9.5 MHrs 0.56 kΩ RVC-INT MVTM36BF072M017A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) Output Current (Peak) Efficiency (Ambient) 14.0 VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/5 VOUT = VIN • K – IOUT • ROUT V IOUT_AVG IOUT_PK ηAMB W V/V tPEAK < 10ms, IOUT_AVG ≤ 17A VIN = 36V, IOUT = 17A 95.3 VIN = 26V to 55 V, IOUT = 17A 92.0 17 A 25 A 95.9 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 17A 3.3 5.6 7.8 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 17A 5.0 7.8 10.0 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 17A Switching Frequency Output Ripple Frequency 7.0 9.1 12.0 mΩ fSW 1.50 1.55 1.60 MHz fSW_RP 3.00 3.10 3.20 MHz MTBF VC Internal Resistor VTM™ Current Multiplier Page 9 of 31 MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile 3.5 MHrs Telcordia Issue 2 - Method 1 Case 1; Ground Benign, Controlled 5.5 MHrs 0.56 kΩ RVC-INT Rev 1.5 01/2022 Select Devices are End of Life Refer to page 5 MVTM36 Series Model Specific Electrical Characteristics (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit 14.0 W MVTM36BF090M013A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) Output Current (Peak) Efficiency (Ambient) VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/4 VOUT = VIN • K – IOUT • ROUT V IOUT_AVG IOUT_PK ηAMB V/V tPEAK < 10ms, IOUT_AVG ≤ 13A VIN = 36V, IOUT = 13A 93.8 VIN = 26 – 50V, IOUT = 13A 93.5 13 A 19 A 95.3 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 13A 2.0 5.5 9.5 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 13A 3.9 8.9 13.4 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 13A 5.0 10.6 15.9 mΩ 1.85 1.95 2.05 MHz 3.70 3.90 4.10 MHz Switching Frequency Output Ripple Frequency fSW fSW_RP MTBF VC Internal Resistor MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile 1.8 MHrs Telcordia Issue 2 - Method 1 Case 1; Ground Benign, Controlled 7.3 MHrs 0.51 kΩ RVC-INT MVTM36BF120M010A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) Output Current (Peak) Efficiency (Ambient) 10.5 VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/3 VOUT = VIN • K – IOUT • ROUT V IOUT_AVG IOUT_PK ηAMB W V/V tPEAK < 10ms, IOUT_AVG ≤ 10A VIN = 36V, IOUT = 10A 94.2 VIN = 26 – 50V, IOUT = 10A 90.0 10 A 15 A 94.9 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 10A 12.8 19.7 26.5 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 10A 20.4 26.5 32.6 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 10A Switching Frequency Output Ripple Frequency 23.1 29.2 35.2 mΩ fSW 1.56 1.65 1.74 MHz fSW_RP 3.12 3.30 3.48 MHz MTBF VC Internal Resistor MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile 3.8 MHrs Telcordia Issue 2 - Method 1 Case 1; Ground Benign, Controlled 5.6 MHrs 2.0 kΩ RVC-INT VTM™ Current Multiplier Rev 1.5 Page 10 of 31 01/2022 Select Devices are End of Life Refer to page 5 MVTM36 Series Model Specific Electrical Characteristics (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit 13.5 W MVTM36BF180M007A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) Output Current (Peak) Efficiency (Ambient) VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/2 VOUT = VIN • K – IOUT • ROUT V IOUT_AVG IOUT_PK ηAMB V/V tPEAK < 10ms, IOUT_AVG ≤ 7A VIN = 36V, IOUT = 7A 93.0 VIN = 26 – 50V, IOUT = 7A 92.0 7 A 10 A 94.0 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 7A 19.7 40.0 60.7 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 7A 30.0 55.0 75.0 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 7A 35.0 60.0 90.0 mΩ 1.68 1.77 1.86 MHz 3.36 3.54 3.72 MHz Switching Frequency Output Ripple Frequency fSW fSW_RP MTBF VC Internal Resistor MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile 3.8 MHrs Telcordia Issue 2 - Method 1 Case 1; Ground Benign, Controlled 5.7 MHrs 0.51 kΩ RVC-INT MVTM36BF240M005A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) Output Current (Peak) Efficiency (Ambient) 8.5 VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 2/3 VOUT = VIN • K – IOUT • ROUT V IOUT_AVG IOUT_PK ηAMB W V/V tPEAK < 10ms, IOUT_AVG ≤ 5A VIN = 36V, IOUT = 5A 93.5 VIN = 26 – 50V, IOUT = 5A 93.0 5 A 7.5 A 96.0 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 5A 40.0 51.4 70.0 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 5A 64.0 86.0 120.0 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 5A Switching Frequency Output Ripple Frequency 85.0 102.0 135 mΩ fSW 1.57 1.60 1.63 MHz fSW_RP 3.14 3.20 3.26 MHz MTBF VC Internal Resistor MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile 3.8 MHrs Telcordia Issue 2 - Method 1 Case 1; Ground Benign, Controlled 5.6 MHrs 2.0 kΩ RVC-INT VTM™ Current Multiplier Rev 1.5 Page 11 of 31 01/2022 Select Devices are End of Life Refer to page 5 MVTM36 Series Model Specific Electrical Characteristics (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit 9.0 W MVTM36BF360M003A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) Output Current (Peak) Efficiency (Ambient) VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1 VOUT = VIN • K – IOUT • ROUT V IOUT_AVG IOUT_PK ηAMB V/V tPEAK < 10ms, IOUT_AVG ≤ 3A VIN = 36V, IOUT = 3A 95.3 VIN = 26 – 50V, IOUT = 3A 93.3 3 A 4.5 A 96.0 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 3A 30 80 175 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 3A 72 100 168 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 3A 120 160 228 mΩ 1.64 1.67 1.70 MHz 3.28 3.34 3.40 MHz Switching Frequency Output Ripple Frequency fSW fSW_RP MTBF VC Internal Resistor MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile 3.8 MHrs Telcordia Issue 2 - Method 1 Case 1; Ground Benign, Controlled 5.6 MHrs 2.0 kΩ RVC-INT VTM™ Current Multiplier Rev 1.5 Page 12 of 31 01/2022 Select Devices are End of Life Refer to page 5 MVTM36 Series Model Specific Electrical Characteristics (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit 5.0 W MVTM36BH030M025A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/12 V/V VOUT = VIN • K – IOUT • ROUT V IOUT_AVG Output Current (Peak) IOUT_PK tPEAK < 10ms, IOUT_AVG ≤ 25A ηAMB Efficiency (Ambient) VIN = 36V, IOUT = 25A 88.5 VIN = 26 – 50V, IOUT = 25A 85.5 25.0 A 37.5 A 90.8 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 25A 2.0 5.3 8.5 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 25A 4.5 7.3 10.0 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 25A 5.0 8.0 12.0 mΩ 1.50 1.65 1.80 MHz 3.00 3.30 3.60 MHz Switching Frequency fSW Output Ripple Frequency fSW_RP MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile MTBF VC Internal Resistor RVC-INT 4.5 MHrs 8.87 kΩ Current Monitor: IM • The IM pin provides a DC analog voltage proportional to the output current of the VTM. Signal Type State Attribute IM Voltage (No Load) IM Voltage (50%) Analog Input Steady IM Voltage (Full Load) IM Gain IM Resistance (External) Symbol VIM_NL VIM_50% VIM_FL AIM RIM_EXT VTM™ Current Multiplier Rev 1.5 Page 13 of 31 01/2022 Conditions / Notes Min Typ Max Unit TC = 25°C, VIN = 42V, IOUT = 0A 0.30 0.32 0.38 V TC = 25°C, VIN = 42V, IOUT = 12.5A 0.94 V TC = 25°C, VIN = 42V, IOUT = 25A 1.80 V 69 mV/A TC = 25°C, VIN = 42V, IOUT > 12.5A 2.5 MΩ Select Devices are End of Life Refer to page 5 MVTM36 Series Model Specific Electrical Characteristics (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit 5.6 W MVTM36BH045M020A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/8 V/V VOUT = VIN • K – IOUT • ROUT V IOUT_AVG Output Current (Peak) IOUT_PK tPEAK < 10ms, IOUT_AVG ≤ 20A ηAMB Efficiency (Ambient) VIN = 48V, IOUT = 20A 91.0 VIN = 26V to 55 V, IOUT = 20A 89.5 20 A 30 A 92.9 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 20A 5.0 8.2 13.0 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 20A 7.0 10.8 15.0 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 20A 9.0 13.2 18.0 mΩ 1.37 1.50 1.63 MHz 2.74 3.00 3.26 MHz Switching Frequency fSW Output Ripple Frequency fSW_RP MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile MTBF VC Internal Resistor RVC-INT 6.0 MHrs 4.64 kΩ Current Monitor: IM • The IM pin provides a DC analog voltage proportional to the output current of the VTM. Signal Type State Attribute IM Voltage (No Load) IM Voltage (50%) Analog Input Steady IM Voltage (Full Load) IM Gain IM Resistance (External) Symbol Conditions / Notes Min Typ Max Unit VIM_NL TC = 25°C, VIN = 48V, IOUT = 0A 0.27 0.33 0.37 V VIM_50% TC = 25°C, VIN = 48V, IOUT = 10A 1.0 V VIM_FL TC = 25°C, VIN = 48V, IOUT = 20A 1.91 V AIM TC = 25°C, VIN = 48V, IOUT > 10A 91 mV/A RIM_EXT VTM™ Current Multiplier Rev 1.5 Page 14 of 31 01/2022 2.5 MΩ Select Devices are End of Life Refer to page 5 MVTM36 Series Model Specific Electrical Characteristics (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit 5.2 W MVTM36BH090M010A00 No-Load Power Dissipation PNL Transfer Ratio K Ouput Voltage VOUT Output Current (Average) VIN = 26 – 50V K = VOUT / VIN, IOUT = 0A 1/4 V/V VOUT = VIN • K – IOUT • ROUT V IOUT_AVG Output Current (Peak) IOUT_PK tPEAK < 10ms, IOUT_AVG ≤ 10A ηAMB Efficiency (Ambient) VIN = 36V, IOUT = 10A 92.0 VIN = 26 – 50V, IOUT = 10A 90.0 10 A 15 A 93.6 % Output Resistance (Cold) ROUT_COLD TC = –40°C, IOUT = 10A 20.0 27.0 35.0 mΩ Output Resistance (Ambient) ROUT_AMB TC = 25°C, IOUT = 10A 28.0 36.2 45.0 mΩ Output Resistance (Hot) ROUT_HOT TC = 100°C, IOUT = 10A 35.0 44.4 55.0 mΩ 1.60 1.75 1.90 MHz 3.20 3.50 3.80 MHz Switching Frequency fSW Output Ripple Frequency fSW_RP MIL-HDBK-217 Plus Parts Count; 25°C Ground Benign, Stationary, Indoors / Computer Profile MTBF VC Internal Resistor RVC-INT 4.5 MHrs 2.05 kΩ Current Monitor: IM • The IM pin provides a DC analog voltage proportional to the output current of the VTM. Signal Type State Attribute IM Voltage (No Load) IM Voltage (50%) Analog Input Steady IM Voltage (Full Load) IM Gain IM Resistance (External) Symbol Conditions / Notes Min Typ Max Unit VIM_NL TC = 25°C, VIN = 48V, IOUT = 0A 0.28 0.35 0.42 V VIM_50% TC = 25°C, VIN = 48V, IOUT = 5A 0.90 V VIM_FL TC = 25°C, VIN = 48V, IOUT = 10A 1.68 V AIM TC = 25°C, VIN = 48V, IOUT > 5A 156 mV/A RIM_EXT VTM™ Current Multiplier Rev 1.5 Page 15 of 31 01/2022 2.5 MΩ Select Devices are End of Life Refer to page 5 MVTM36 Series Signal Characteristics Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. VTM Control: VC • Used to wake up powertrain circuit. • A minimum of 12V must be applied indefinitely for VIN ≤ 26V to ensure normal operation. • VC slew rate must be within range for a successful start. • PRM™ VC can be used as valid wake-up signal source. • VC voltage may be continuously applied; there will be minimal VC current drawn when VIN ≥ 26V and VC ≤ 13. • Internal resistance used in adaptive loop compensation Signal Type State Attribute Symbol Conditions / Notes External VC Voltage VVC_EXT Required for start up, and operation below 26V. VC Current Draw Threshold VVC_TH Low VC current draw for VIN > 26V Steady Min 12 IVC VC = 13V, VIN > 26V V V 22.5 mA 32 V/µs VC = 16.5V, dVC/dt = 0.25V/µs 2 A tON VIN pre-applied, PC floating, VC enable; CPC = 0µF, COUT = 0µF 500 µs tVC_PC VC = 12V to PC high, VIN = 0V, dVC/dt = 0.25V/µs 25 µs Unit dVC/dt Required for proper start up VC Inrush Current IINR_VC Transitional VC To PC Delay 16.5 0.25 VC Slew Rate VC Output Turn-On Delay Unit 200 VC = 16.5V, VIN > 26V Analog Input Max 13 VC = 13V, VIN = 0V VC Current Draw Start Up Typ 0.02 10 Primary Control: PC • The PC pin enables and disables the VTM. When held below 2V, the VTM will be disabled. • PC pin outputs 5V during normal operation. PC pin is equal to 2.5V during fault mode given VIN ≥ 26V and VC ≥ 12V. • After successful start-up and under no fault condition, PC can be used as a 5V regulated voltage source with a 2mA maximum current. • Module will shutdown when pulled low with an impedance less than 400Ω. • In an array of VTMs, connect PC pin to synchronize start up. • PC pin cannot sink current and will not disable other modules during fault mode. Signal Type State Attribute PC Voltage Steady Analog Input Start Up Enable Digital Input / Output Disable Transitional Symbol Conditions / Notes VPC PC Source Current IPC_OP PC Resistance (Internal) RPC_INT PC Source Current IPC_EN Internal pull-down resistor Min Typ Max 4.7 5.0 5.3 V 2 mA 50 150 400 kΩ 50 100 300 µA 50 pF PC Capacitance (Internal) CPC_INT PC Resistance (External) RPC_EXT 60 PC Voltage (Enable) VPC_EN 2 PC Voltage (Disable) VPC_DIS PC Pull Down Current IPC_PD PC Disable Time PC Fault Response Time 5.1 tPC_DIS_T tFR_PC VTM™ Current Multiplier Rev 1.5 Page 16 of 31 01/2022 kΩ 2.5 From fault to PC = 2V 3 V 2 V mA 4 µs 100 µs Select Devices are End of Life Refer to page 5 MVTM36 Series Signal Characteristics (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Temperature Monitor: TM • The TM pin monitors the internal temperature of the VTM controller IC within an accuracy of ±5°C. • Can be used as a “Power Good” flag to verify that the VTM is operating. • The TM pin has a room temperature set point of 3V (at 27°C) and approximate gain of 10mV/ °C. Signal Type State Attribute TM Voltage Analog Output Steady Disable Digital Output (Fault Flag) Transitional Symbol Conditions / Notes Min Typ Max Unit VTM_AMB TJ controller = 27°C 2.95 3.00 3.05 V 100 µA TM Source Current ITM TM Gain ATM TM Voltage VTM_DIS TM Resistance (Internal) RTM_INT TM Capacitance (External) CTM_EXT TM Fault Response Time tFR_TM VTM™ Current Multiplier Rev 1.5 Page 17 of 31 01/2022 10 mV/°C 0 Internal pull-down resistor From fault to TM = 1.5V 25 40 10 V 50 kΩ 50 pF µs ≥ 26 V VTM™ Current Multiplier Rev 1.5 Page 18 of 31 01/2022 PC 3V 5V VTM-AMB TM NL VOVLO VOUT VIN VVC-EXT VC a 2 3 b c 4 a: VC slew rate (dVC/dt) b: Minimum VC pulse rate c: TOVLO d: TOCP e: Output turn on delay (TON) f: PC disable time (TPC_DIS_T) g: VC to PC delay (TVC_PC) 1 5 6 1. Initiated VC pulse 2. Controller start 3. VIN ramp up 4. VIN = VOVLO 5. VIN ramp down no VC pulse 6. Overcurrent 7. Start up on short circuit 8. PC driven low IOCP ISSP IOUT 7 d g e f 8 Notes: – Timing and voltage is not to scale – Error pulse width is load dependent Select Devices are End of Life Refer to page 5 MVTM36 Series Timing Diagram Select Devices are End of Life Refer to page 5 MVTM36 Series General Characteristics Specifications apply over all line and load conditions, unless otherwise noted; Boldface specifications apply over the temperature range of –55°C < TJ < 125°C (M-Grade); All other specifications are at TJ = 25°C unless otherwise noted. Attribute Symbol Conditions Notes Min Typ Max Unit Mechanical Full VIC Length L 32.25 [1.270] 32.5 [1.280] 32.75 [1.289] mm [in] Width W 21.75 [0.856] 22.0 [0.866] 22.25 [0.876] mm [in] 6.48 [0.255] 6.73 [0.265] 6.98 [0.275] Height H Volume Vol Weight W No heat sink mm [in] 4.81 [0.294] cm3 [in3] 15.0 [0.53] g [oz] Half VIC Length L 21.7 [0.85] 22.0 [0.87] 22.3 [0.88] mm [in] Width W 16.4 [0.64] 16.5 [0.65] 16.6 [0.66] mm [in] Height H 6.48 [0.255] 6.73 [0.265] 6.98 [0.275] mm [in] Volume Vol Weight W Lead Finish No heat sink 2.44 [0.150] cm3 [in3] 8.0 [0.28] g [oz] Nickel 0.51 2.03 Palladium 0.02 0.15 Gold 0.003 0.051 –55 125 µm Thermal Operating Temperature TJ Thermal Resistance (Full VIC) θJC Isothermal heat sink and isothermal internal PCB Thermal Resistance (Half VIC) θJC Isothermal heat sink and isothermal internal PCB °C 1 °C/W 2.2 °C/W Assembly Storage Temperature TST –65 ESDHBM Human Body Model Component Level ANSI ESDA JEDEC JS-001-2012, Class 1C 1000 to 10ms) in the reverse direction. This type of characteristic is close to the impedance characteristic of a DC power distribution system, both in behavior (AC dynamic) and absolute value (DC dynamic). When connected in an array with the same K factor, the VTM module will inherently share the load current (typically 5%) with parallel units according to the equivalent impedance divider that the system implements from the power source to the point-of-load. Some general recommendations to achieve matched array impedances: n Dedicate common copper planes within the PCB to deliver and return the current to the modules. n Provide the PCB layout as symmetric as possible. n Apply same input / output filters (if present) to each unit. For further details see: AN:016 Using BCM® Bus Converters in High Power Arrays. VIN ZIN_EQ1 – ZOUT_EQ1 RO_1 ZIN_EQ2 + VTM1 VTM2 VOUT ZOUT_EQ2 RO_2 DC Load ZIN_EQn VTMn ZOUT_EQn RO_n Figure 20 — VTM module array Fuse Selection In order to provide flexibility in configuring power systems VI Chip® products are not internally fused. Input line fusing of VI Chip products is recommended at system level to provide thermal protection in case of catastrophic failure. The fuse shall be selected by closely matching system requirements with the following characteristics: n Current rating (usually greater than maximum current of VTM module) n Maximum voltage rating (usually greater than the maximum possible input voltage) n Ambient temperature n Nominal melting I2t VTM™ Current Multiplier Rev 1.5 Page 24 of 31 01/2022 Select Devices are End of Life Refer to page 5 Product Outline & Recommended Land Pattern; Full VIC SMD, 18 pin VTM™ Current Multiplier Rev 1.5 Page 25 of 31 01/2022 MVTM36 Series Select Devices are End of Life Refer to page 5 Product Outline & Recommended Land Pattern; Full VIC TH, 60 pin VTM™ Current Multiplier Rev 1.5 Page 26 of 31 01/2022 MVTM36 Series Select Devices are End of Life Refer to page 5 MVTM36 Series Recommended Heat Sink Push Pin Location; Full (NO GROUNDING CLIPS) (WITH GROUNDING CLIPS) Notes: 1. Maintain 3.50 (0.138) Dia. keep-out zone free of copper, all PCB layers. 2. (A) Minimum recommended pitch is 39.50 (1.555). This provides 7.00 (0.275) component edge-to-edge spacing, and 0.50 (0.020) clearance between Vicor heat sinks. (B) Minimum recommended pitch is 41.00 (1.614). This provides 8.50 (0.334) component edge-to-edge spacing, and 2.00 (0.079) clearance between Vicor heat sinks. 3. VI Chip® module land pattern shown for reference only; actual land pattern may differ. Dimensions from edges of land pattern to push–pin holes will be the same for all full-size VI Chip® products. 5. Unless otherwise specified: Dimensions are mm (inches) tolerances are: x.x (x.xx) = ±0.3 (0.01) x.xx (x.xxx) = ±0.13 (0.005) 4. RoHS compliant per CST–0001 latest revision. 6. Plated through holes for grounding clips (33855) shown for reference, heat sink orientation and device pitch will dictate final grounding solution. VTM™ Current Multiplier Rev 1.5 Page 27 of 31 01/2022 Select Devices are End of Life Refer to page 5 Mechanical Drawing; Half VIC SMT, 12 pin VTM™ Current Multiplier Rev 1.5 Page 28 of 31 01/2022 MVTM36 Series Select Devices are End of Life Refer to page 5 MVTM36 Series Recommended Heat Sink Push Pin Location; Half (NO GROUNDING CLIPS) (WITH GROUNDING CLIPS) Notes: 1. Maintain 3.50 (0.138) Dia. keep-out zone 3. VI Chip® module land pattern shown 5. Unless otherwise specified: free of copper, all PCB layers. for reference only, actual land pattern may differ. Dimensions are mm (inches) Dimensions from edges of land pattern tolerances are: 2. (A) minimum recommended pitch is 24.00 (0.945) to push–pin holes will be the same for x.x (x.xx) = ±0.13 (0.01) this provides 7.50 (0.295) component all half size V•I Chip Products. x.xx (x.xxx) = ±0.13 (0.005) 4. RoHS compliant per CST–0001 latest revision. 6. Plated through holes for grounding clips (33855) edge–to–edge spacing, and 0.50 (0.020) clearance between Vicor heat sinks. (B) Minimum recommended pitch is 25.50 (1.004). shown for reference. Heat sink orientation and This provides 9.00 (0.354) component device pitch will dictate final grounding solution. edge–to–edge spacing, and 2.00 (0.079) clearance between Vicor heat sinks. VTM™ Current Multiplier Rev 1.5 Page 29 of 31 01/2022 Select Devices are End of Life Refer to page 5 MVTM36 Series Revision History Revision Date Description Page Number(s) 1.0 03/2014 Initial release n/a 1.1 11/25/14 Typ value of VC internal resistor 12 1.2 01/07/15 Updated 3V part to B version 1.3 07/17/15 MSL changes 1.4 10/23/20 Revised ambient and hot output resistance specs for MVTM36BF360M003A00 12 01/12/22 Document format update Revised output resistance specification for MVTM36BF360M003A00 Revised VC current draw, inrush current specs, tON conditions/notes All 12 16 1.5 VTM™ Current Multiplier Rev 1.5 Page 30 of 31 01/2022 5 19 & 20 Select Devices are End of Life Refer to page 5 MVTM36 Series Vicor’s comprehensive line of power solutions includes high density AC-DC and DC-DC modules and accessory components, fully configurable AC-DC and DC-DC power supplies, and complete custom power systems. Information furnished by Vicor is believed to be accurate and reliable. However, no responsibility is assumed by Vicor for its use. Vicor makes no representations or warranties with respect to the accuracy or completeness of the contents of this publication. Vicor reserves the right to make changes to any products, specifications, and product descriptions at any time without notice. Information published by Vicor has been checked and is believed to be accurate at the time it was printed; however, Vicor assumes no responsibility for inaccuracies. Testing and other quality controls are used to the extent Vicor deems necessary to support Vicor’s product warranty. Except where mandated by government requirements, testing of all parameters of each product is not necessarily performed. Specifications are subject to change without notice. Visit https://www.vicorpower.com/mil-cots_dc-dc/mil-cots_prm_regulator_and_vtm_current_multiplier for the latest product information. Vicor’s Standard Terms and Conditions and Product Warranty All sales are subject to Vicor’s Standard Terms and Conditions of Sale, and Product Warranty which are available on Vicor’s webpage (http://www.vicorpower.com/termsconditionswarranty) or upon request. Life Support Policy VICOR’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS PRIOR WRITTEN APPROVAL OF THE CHIEF EXECUTIVE OFFICER AND GENERAL COUNSEL OF VICOR CORPORATION. As used herein, life support devices or systems are devices which (a) are intended for surgical implant into the body, or (b) support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the labeling can be reasonably expected to result in a significant injury to the user. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system or to affect its safety or effectiveness. Per Vicor Terms and Conditions of Sale, the user of Vicor products and components in life support applications assumes all risks of such use and indemnifies Vicor against all liability and damages. Intellectual Property Notice Vicor and its subsidiaries own Intellectual Property (including issued U.S. and Foreign Patents and pending patent applications) relating to the products described in this data sheet. No license, whether express, implied, or arising by estoppel or otherwise, to any intellectual property rights is granted by this document. Interested parties should contact Vicor’s Intellectual Property Department. The products described on this data sheet are protected by the following U.S. Patents Numbers: 5,945,130; 6,403,009; 6,710,257; 6,911,848; 6,930,893; 6,934,166; 6,940,013; 6,969,909; 7,038,917; 7,145,786; 7,166,898; 7,187,263; 7,202,646; 7,361,844; D496,906; D505,114; D506,438; D509,472; and for use under 6,975,098 and 6,984,965. Contact Us: http://www.vicorpower.com/contact-us Vicor Corporation 25 Frontage Road Andover, MA, USA 01810 Tel: 800-735-6200 Fax: 978-475-6715 www.vicorpower.com email Customer Service: custserv@vicorpower.com Technical Support: apps@vicorpower.com ©2020 – 2022 Vicor Corporation. All rights reserved. The Vicor name is a registered trademark of Vicor Corporation. All other trademarks, product names, logos and brands are property of their respective owners. VTM™ Current Multiplier Rev 1.5 Page 31 of 31 01/2022