EMI Filtering And Transient Suppression
VI Chip Qualification Testing Test Standard Environment Acceleration To determine the ability of parts to withstand constant acceleration, as an indicator of the mechanical strength limits. MIL-STD-810F, Method 513.5, Procedure II, Operational Acceleration step 2 g, 6 direction Altitude To observe low air pressure effects on either operational or non-operational design parameters. MIL-STD-810D, Method 500.4, Procedure I & II 40,000 ft. and 70,000 ft. operational Explosive Atmosphere To determine the ability of equipment to operate in the presence of an explosive atmosphere. MIL-STD-810F, Method 511.4, Procedure I, Operational Fuel-air explosive atmospheres Vicor internal reference EIAJESD22-A108C Nominal line, 75% load, temperature within 5 C max. operational MIL-STD-810F, Method 507.4 240 hours, 95% RH High Temperature Operational Life An operational test used to detect thermally activated failure mechanisms. Humidity A humidity test simulates the moisture-laden air found in tropical regions. Mechanical Shock To determine the ability to withstand mechanical shocks from suddenly applied forces or an abrupt change in motion produced by handling, transportation or field operation. JESD22-B104C, Service Condition C 100 g, 2 ms shock, 10 shock / axis, 3 axis, 30 total JESD22-B103B, Service Condition B Resistance to Solvents Determines the resistance to externally applied solvents. MIL-STD-883G, Method 2015.13 Ambient temperature, ambient humidity Temperature Cycle Conducted to determine the ability of devices to withstand mechanical stresses induced by alternating high and low temperature extremes. Vibration from 2 – 500 Hz, 30 minutes / axis, 3 axis, 90 minutes total Tel: 33 1 34 52 18 30 Fax: 33 1 34 52 28 30 E-mail: vicorfr@vicr.com Our global technical support team is staffed with applications engineers to provide the product, application Tel: 49 89 962 439 0 Fax: 49 89 962 439 39 E-mail: vicorde@vicr.com and technical assistance customers need concerning our products and power solutions. Our facilities house electronics laboratories where our Vicor Italy Tel: 39 02 2247 2326 Fax: 39 02 2247 3166 E-mail: vicorit@vicr.com applications engineers can evaluate specific customer design issues and offer a wide range of component- Vicor UK based power solutions that include –55 C to 125 C, 500 cycles Tel: 44 1276 678222 Fax: 44 1276 681269 E-mail: vicoruk@vicr.com distributed power, current sharing, JESD22-A104-B N 1 redundancy, thermal management, and compliance with safety and performance standards. Vicor Japan Co., Ltd. Environment MIL-STD-883C, Method 3015 Ambient temperature, ambient humidity Fungus To determine if a material(s) will support the growth of specific fungi. MIL-STD-810F, Method 508.4 Section II Severe climate conditions Salt Fog To determine the resistance of the equipment to the effects of a salt atmosphere, primarily corrosion. MIL-STD-810F, Method 509.4 Salt-fog harsh environment MIL-STD-202G, Method 208H Continuous solder coating for a minimum of 95% surface area Terminal Strength Determines the resistance to external force on the terminals. MIL-STD-202G, Method 211A Test Condition A, 1/2 to 5 lbs. Ambient temperature, ambient humidity HALT Demonstrates product design margin and robustness. Vicor internal reference Destruct limits determined Operational limits verified Solderability To evaluate the solderability of terminations that are normally joined by a soldering operation. Fax: 978-749-3341 or E-mail: apps@vicr.com 85 C, 85% RH, high-line input voltage Standard Electro Static Discharge Classifies the device according to it's susceptibility to damage or degradation by exposure to electrostatic discharge. Vicor France JESD47 VI Chip Characterization Process Test 800-927-9474 Vicor Germany Random Mechanical Vibration To evaluate the construction, materials and mounting of the device for ruggedness. Temperature Humidity Bias An operational test that evaluates the reliability of the device package in humid environments. For applications support in the U.S. call Tel: 81 3 5487 5407 Fax: 81 3 5487 3885 E-mail: apps@vicorpower.jp Vicor Hong Kong Tel: 852-2956-1782 Fax: 852-2956-0782 E-mail: hkapps@vicr.com Military COTS P/N 33115 vicorpower.com 800-735-6200 12/13 Rev 2.0 28 V DC-DC VI Chip Modules
Application Examples VTM PRM Pre-Regulator Module Voltage Transformation Module Input: 16 – 50 Vdc Isolated output: 1 – 50 Vdc Power: 120 W 1 µs transient response 1.3 MHz switching frequency 3 MHz effective switching frequency Weight: 0.5 oz (15 g) Weight: 0.5 oz (15 g) 28 Vdc Efficiency: Up to 96.5% Operation: –55 C to 125 C PRM PR NC IL TM PC VC VICOR CORP. MADE IN USA MP028F036M12AL AP4200PRN020234 39.6 Vdc –In NRTL Out US PRM 36 Vdc PR NC IL TM PC VC VICOR CORP. MADE IN USA AP4200PRN020234 Out Out PC VC TM VTM M-FIAM7 Tightly Regulated Single Output Input: 14 – 50 Vdc US US Current rating: 10 A Out In VICOR CORP. MADE IN USA MV036F120M010 AP9297PRN222524 S NRTL C Out –Out CD NC OS SG SC VH PC VC TM VTM Transformation and Isolation –Out 12 Vdc, 75 W Out In VICOR CORP. MADE IN USA MV036F120M010 AP9297PRN222524 S C NRTL MIL-STD-1275A/B/D compliance 100 Vdc, 50 ms 250 Vdc, 50 µs US U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS –In Regulation NRTL –Out U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS –Out 3.3 Vdc, 35 A S –In S NRTL MV036F030M040 AP9297PRN222524 C –Out MP028F036M12AL C In VICOR CORP. MADE IN USA U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS CD NC OS SG SC VH In –In PC VC TM VTM S C –Out Power: Up to 100 A or 120 W Operation: –55 C to 125 C In –In U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS Output: 26 – 50 Vdc Efficiency: 95% 28 Vdc Conducted Noise MIL-STD-461E EMI Filtering and Transient Suppression –12 Vdc, 25 W Multiple Outputs with a Single PRM MIL-STD-461E compliance Conducted emissions: CE101, CE102 Conducted susceptibility: CS101, CS114, CS115, CS116 M-FIAM7 and MP028F036M12AL MV036F120M010 DC-DC V I Chip modules operating at 28 Vdc, 120 W. US U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS The VTM puts isolated current multiplication and voltage division directly at the point of load and is available in twelve voltage division ratios to supply up to 100 A or 120 W from 1 – 50 Vdc. In –In PRM 28 Vdc DC-DC Conversion Using PRM and VTM –In PR NC IL TM PC VC MP028F036M12AL AP4200PRN020234 S C –Out Out NRTL 40 Vdc US –In In CD NC OS SG SC VH 16 – 50 Vdc –In (28 Vdc nominal) PRM In 26 – 50 Vdc PR NC IL TM PC VC VICOR CORP. MADE IN USA (36 Vdc nominal) MP028F036M12AL AP8942PRK256682 S C NRTL US U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS –Out Regulation Out CD NC OS SG SC VH VTM PC VC TM VICOR CORP. MADE IN USA MV036F120M010 AP3826PRJ836337 1 – 50 Vdc –Out –In PR NC IL TM PC VC VTM AP4200PRN020234 S NRTL NRTL US –Out Out –Out Out VTM PRM 036 M MV Voltage Transformation Module F 120 M Configuration PRM Nominal Factorized Bus Product Grade Temperatures ( C) VTM Output Voltage Designator ( VOUT x 10) Storage: –65 to 125 Operating: –55 to 125 (Junction) F J Lead T Through Hole MV036F045M027 AP9297PRN222524 C Out –Out –Out NRTL Max VTM Output Current (A) 100 100 80 80 55 40 27 1 2 Long Solder S Short ModuMate N Long ModuMate Baseplate 1 Slotted 2 Threaded 3 Through Hole 12 AL 010 PRM Output Power AL Adaptive Loop Designator ( Pf /10 ) (PRM) VTM Output Current Designator ( IOUT ) M-FIAM7 output response to an input transient. Higher efficiency less total heat dissipation ZVS and ZCS enable low noise power conversion Efficiency vs. Output Current 96 High switching frequency ( 1 MHz) means small filter components 94 92 90 85 90 MIL-COTS Evaluation Boards 86 Vicor has created a simple, convenient way to evaluate the entire family of MIL-COTS 28 V DC-DC V I-Chip Modules. Each PRM and VTM are surface mounted to a unique PWB and can be mated together using the integral connectors. Just add –CB to the suffix of any PRM and VTM to specify the requested evaluation board. 88 80 75 70 65 0.5 1 1.5 2 2.5 3 3.5 84 0 1 2 PRM Efficiency vs. Output Current 3 4 5 6 Output Current (A) 7 8 9 10 VTM Efficiency vs. Output Current Fast Transient Response Meets challenging load slew rate requirements 28 V to 12 V, 10 A VTM with no external capacitance 28 V to 12 V, 10 A VTM with 4.7 µF external capacitance Flexible Thermal Management Low thermal impedance package PRM losses can be separated away from the point of load V I Chip package simplifies heat sink design VTM Part Number MV036F011M100 MV036F011M100 MV036F015M080 MV036F015M080 MV036F022M055 MV036F030M040 MV036F045M027 2 Product Grade Pin Style Operating Temp.( C) 1 Short Solder H –40 to 100 M –55 to 100 US Out Low Noise Eliminates bulk capacitance at point of load Desired Load Voltage (Vdc) 1.0 1.2 1.5 1.8 2.0 3.3 5.0 Input Voltage 7 14 – 50 VIN S U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS CD NC OS SG SC VH Output Current (A) Input Voltage Designator Filter Input Attenuator Module M In VICOR CORP. MADE IN USA Higher Efficiency and Power Density 0 MP Pre-Regulator Module 7 Efficiency (%) Efficiency (%) Part Numbering Chart, PRMs and VTMs 036 Parallel for Higher Power M-FIAM Superior Performance 95 MV 5 Vdc, 200 W U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS Isolation & Transformation Efficiency vs. Output Current F US Out US 100 028 NRTL S C Together, the PRM and the VTM chip set provides the full functionality of a DC-DC converter, but with breakthrough performance and flexibility in a rugged, miniature package. MP PC VC TM MP028F036M12AL C S C –Out Transient Immunity MIL-STD-1275B Part Numbering Chart, M-FIAM7 In VICOR CORP. MADE IN USA MV036F045M027 AP9297PRN222524 Out –Out VICOR CORP. MADE IN USA Out Out U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS In –Out PC VC TM VTM VICOR CORP. MADE IN USA U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS PRM –In Out –Out M-FIAM7 The PRM accepts a wide input of 16 – 50 Vdc and provides a nominal 36 Vdc factorized bus voltage (Vf) controllable over 26 – 50 Vdc to regulate the VTM output. Desired Load Voltage (Vdc) 10 12 15 24 28 36 48 VTM Part Number MV036F090M013 MV036F120M010 MV036F180M007 MV036F240M005 MV036F240M005 MV036F360M003 MV036F360M003 Max VTM Output Current (A) 13.3 10.0 6.7 5.0 5.0 3.3 3.3 Load step with 100 uF input capacitance and no output capacitance (MV036F120M010) Low thermal impedance to the PC board and heat sink nto Log o er.com w o vicorp r call o 00 35-62 800-7 er your to ord n boards atio evalu
Application Examples VTM PRM Pre-Regulator Module Voltage Transformation Module Input: 16 – 50 Vdc Isolated output: 1 – 50 Vdc Power: 120 W 1 µs transient response 1.3 MHz switching frequency 3 MHz effective switching frequency Weight: 0.5 oz (15 g) Weight: 0.5 oz (15 g) 28 Vdc Efficiency: Up to 96.5% Operation: –55 C to 125 C PRM PR NC IL TM PC VC VICOR CORP. MADE IN USA MP028F036M12AL AP4200PRN020234 39.6 Vdc –In NRTL Out US PRM 36 Vdc PR NC IL TM PC VC VICOR CORP. MADE IN USA AP4200PRN020234 Out Out PC VC TM VTM M-FIAM7 Tightly Regulated Single Output Input: 14 – 50 Vdc US US Current rating: 10 A Out In VICOR CORP. MADE IN USA MV036F120M010 AP9297PRN222524 S NRTL C Out –Out CD NC OS SG SC VH PC VC TM VTM Transformation and Isolation –Out 12 Vdc, 75 W Out In VICOR CORP. MADE IN USA MV036F120M010 AP9297PRN222524 S C NRTL MIL-STD-1275A/B/D compliance 100 Vdc, 50 ms 250 Vdc, 50 µs US U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS –In Regulation NRTL –Out U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS –Out 3.3 Vdc, 35 A S –In S NRTL MV036F030M040 AP9297PRN222524 C –Out MP028F036M12AL C In VICOR CORP. MADE IN USA U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS CD NC OS SG SC VH In –In PC VC TM VTM S C –Out Power: Up to 100 A or 120 W Operation: –55 C to 125 C In –In U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS Output: 26 – 50 Vdc Efficiency: 95% 28 Vdc Conducted Noise MIL-STD-461E EMI Filtering and Transient Suppression –12 Vdc, 25 W Multiple Outputs with a Single PRM MIL-STD-461E compliance Conducted emissions: CE101, CE102 Conducted susceptibility: CS101, CS114, CS115, CS116 M-FIAM7 and MP028F036M12AL MV036F120M010 DC-DC V I Chip modules operating at 28 Vdc, 120 W. US U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS The VTM puts isolated current multiplication and voltage division directly at the point of load and is available in twelve voltage division ratios to supply up to 100 A or 120 W from 1 – 50 Vdc. In –In PRM 28 Vdc DC-DC Conversion Using PRM and VTM –In PR NC IL TM PC VC MP028F036M12AL AP4200PRN020234 S C –Out Out NRTL 40 Vdc US –In In CD NC OS SG SC VH 16 – 50 Vdc –In (28 Vdc nominal) PRM In 26 – 50 Vdc PR NC IL TM PC VC VICOR CORP. MADE IN USA (36 Vdc nominal) MP028F036M12AL AP8942PRK256682 S C NRTL US U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS –Out Regulation Out CD NC OS SG SC VH VTM PC VC TM VICOR CORP. MADE IN USA MV036F120M010 AP3826PRJ836337 1 – 50 Vdc –Out –In PR NC IL TM PC VC VTM AP4200PRN020234 S NRTL NRTL US –Out Out –Out Out VTM PRM 036 M MV Voltage Transformation Module F 120 M Configuration PRM Nominal Factorized Bus Product Grade Temperatures ( C) VTM Output Voltage Designator ( VOUT x 10) Storage: –65 to 125 Operating: –55 to 125 (Junction) F J Lead T Through Hole MV036F045M027 AP9297PRN222524 C Out –Out –Out NRTL Max VTM Output Current (A) 100 100 80 80 55 40 27 1 2 Long Solder S Short ModuMate N Long ModuMate Baseplate 1 Slotted 2 Threaded 3 Through Hole 12 AL 010 PRM Output Power AL Adaptive Loop Designator ( Pf /10 ) (PRM) VTM Output Current Designator ( IOUT ) M-FIAM7 output response to an input transient. Higher efficiency less total heat dissipation ZVS and ZCS enable low noise power conversion Efficiency vs. Output Current 96 High switching frequency ( 1 MHz) means small filter components 94 92 90 85 90 MIL-COTS Evaluation Boards 86 Vicor has created a simple, convenient way to evaluate the entire family of MIL-COTS 28 V DC-DC V I-Chip Modules. Each PRM and VTM are surface mounted to a unique PWB and can be mated together using the integral connectors. Just add –CB to the suffix of any PRM and VTM to specify the requested evaluation board. 88 80 75 70 65 0.5 1 1.5 2 2.5 3 3.5 84 0 1 2 PRM Efficiency vs. Output Current 3 4 5 6 Output Current (A) 7 8 9 10 VTM Efficiency vs. Output Current Fast Transient Response Meets challenging load slew rate requirements 28 V to 12 V, 10 A VTM with no external capacitance 28 V to 12 V, 10 A VTM with 4.7 µF external capacitance Flexible Thermal Management Low thermal impedance package PRM losses can be separated away from the point of load V I Chip package simplifies heat sink design VTM Part Number MV036F011M100 MV036F011M100 MV036F015M080 MV036F015M080 MV036F022M055 MV036F030M040 MV036F045M027 2 Product Grade Pin Style Operating Temp.( C) 1 Short Solder H –40 to 100 M –55 to 100 US Out Low Noise Eliminates bulk capacitance at point of load Desired Load Voltage (Vdc) 1.0 1.2 1.5 1.8 2.0 3.3 5.0 Input Voltage 7 14 – 50 VIN S U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS CD NC OS SG SC VH Output Current (A) Input Voltage Designator Filter Input Attenuator Module M In VICOR CORP. MADE IN USA Higher Efficiency and Power Density 0 MP Pre-Regulator Module 7 Efficiency (%) Efficiency (%) Part Numbering Chart, PRMs and VTMs 036 Parallel for Higher Power M-FIAM Superior Performance 95 MV 5 Vdc, 200 W U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS Isolation & Transformation Efficiency vs. Output Current F US Out US 100 028 NRTL S C Together, the PRM and the VTM chip set provides the full functionality of a DC-DC converter, but with breakthrough performance and flexibility in a rugged, miniature package. MP PC VC TM MP028F036M12AL C S C –Out Transient Immunity MIL-STD-1275B Part Numbering Chart, M-FIAM7 In VICOR CORP. MADE IN USA MV036F045M027 AP9297PRN222524 Out –Out VICOR CORP. MADE IN USA Out Out U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS In –Out PC VC TM VTM VICOR CORP. MADE IN USA U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS PRM –In Out –Out M-FIAM7 The PRM accepts a wide input of 16 – 50 Vdc and provides a nominal 36 Vdc factorized bus voltage (Vf) controllable over 26 – 50 Vdc to regulate the VTM output. Desired Load Voltage (Vdc) 10 12 15 24 28 36 48 VTM Part Number MV036F090M013 MV036F120M010 MV036F180M007 MV036F240M005 MV036F240M005 MV036F360M003 MV036F360M003 Max VTM Output Current (A) 13.3 10.0 6.7 5.0 5.0 3.3 3.3 Load step with 100 uF input capacitance and no output capacitance (MV036F120M010) Low thermal impedance to the PC board and heat sink nto Log o er.com w o vicorp r call o 00 35-62 800-7 er your to ord n boards atio evalu
Application Examples VTM PRM Pre-Regulator Module Voltage Transformation Module Input: 16 – 50 Vdc Isolated output: 1 – 50 Vdc Power: 120 W 1 µs transient response 1.3 MHz switching frequency 3 MHz effective switching frequency Weight: 0.5 oz (15 g) Weight: 0.5 oz (15 g) 28 Vdc Efficiency: Up to 96.5% Operation: –55 C to 125 C PRM PR NC IL TM PC VC VICOR CORP. MADE IN USA MP028F036M12AL AP4200PRN020234 39.6 Vdc –In NRTL Out US PRM 36 Vdc PR NC IL TM PC VC VICOR CORP. MADE IN USA AP4200PRN020234 Out Out PC VC TM VTM M-FIAM7 Tightly Regulated Single Output Input: 14 – 50 Vdc US US Current rating: 10 A Out In VICOR CORP. MADE IN USA MV036F120M010 AP9297PRN222524 S NRTL C Out –Out CD NC OS SG SC VH PC VC TM VTM Transformation and Isolation –Out 12 Vdc, 75 W Out In VICOR CORP. MADE IN USA MV036F120M010 AP9297PRN222524 S C NRTL MIL-STD-1275A/B/D compliance 100 Vdc, 50 ms 250 Vdc, 50 µs US U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS –In Regulation NRTL –Out U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS –Out 3.3 Vdc, 35 A S –In S NRTL MV036F030M040 AP9297PRN222524 C –Out MP028F036M12AL C In VICOR CORP. MADE IN USA U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS CD NC OS SG SC VH In –In PC VC TM VTM S C –Out Power: Up to 100 A or 120 W Operation: –55 C to 125 C In –In U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS Output: 26 – 50 Vdc Efficiency: 95% 28 Vdc Conducted Noise MIL-STD-461E EMI Filtering and Transient Suppression –12 Vdc, 25 W Multiple Outputs with a Single PRM MIL-STD-461E compliance Conducted emissions: CE101, CE102 Conducted susceptibility: CS101, CS114, CS115, CS116 M-FIAM7 and MP028F036M12AL MV036F120M010 DC-DC V I Chip modules operating at 28 Vdc, 120 W. US U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS The VTM puts isolated current multiplication and voltage division directly at the point of load and is available in twelve voltage division ratios to supply up to 100 A or 120 W from 1 – 50 Vdc. In –In PRM 28 Vdc DC-DC Conversion Using PRM and VTM –In PR NC IL TM PC VC MP028F036M12AL AP4200PRN020234 S C –Out Out NRTL 40 Vdc US –In In CD NC OS SG SC VH 16 – 50 Vdc –In (28 Vdc nominal) PRM In 26 – 50 Vdc PR NC IL TM PC VC VICOR CORP. MADE IN USA (36 Vdc nominal) MP028F036M12AL AP8942PRK256682 S C NRTL US U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS –Out Regulation Out CD NC OS SG SC VH VTM PC VC TM VICOR CORP. MADE IN USA MV036F120M010 AP3826PRJ836337 1 – 50 Vdc –Out –In PR NC IL TM PC VC VTM AP4200PRN020234 S NRTL NRTL US –Out Out –Out Out VTM PRM 036 M MV Voltage Transformation Module F 120 M Configuration PRM Nominal Factorized Bus Product Grade Temperatures ( C) VTM Output Voltage Designator ( VOUT x 10) Storage: –65 to 125 Operating: –55 to 125 (Junction) F J Lead T Through Hole MV036F045M027 AP9297PRN222524 C Out –Out –Out NRTL Max VTM Output Current (A) 100 100 80 80 55 40 27 1 2 Long Solder S Short ModuMate N Long ModuMate Baseplate 1 Slotted 2 Threaded 3 Through Hole 12 AL 010 PRM Output Power AL Adaptive Loop Designator ( Pf /10 ) (PRM) VTM Output Current Designator ( IOUT ) M-FIAM7 output response to an input transient. Higher efficiency less total heat dissipation ZVS and ZCS enable low noise power conversion Efficiency vs. Output Current 96 High switching frequency ( 1 MHz) means small filter components 94 92 90 85 90 MIL-COTS Evaluation Boards 86 Vicor has created a simple, convenient way to evaluate the entire family of MIL-COTS 28 V DC-DC V I-Chip Modules. Each PRM and VTM are surface mounted to a unique PWB and can be mated together using the integral connectors. Just add –CB to the suffix of any PRM and VTM to specify the requested evaluation board. 88 80 75 70 65 0.5 1 1.5 2 2.5 3 3.5 84 0 1 2 PRM Efficiency vs. Output Current 3 4 5 6 Output Current (A) 7 8 9 10 VTM Efficiency vs. Output Current Fast Transient Response Meets challenging load slew rate requirements 28 V to 12 V, 10 A VTM with no external capacitance 28 V to 12 V, 10 A VTM with 4.7 µF external capacitance Flexible Thermal Management Low thermal impedance package PRM losses can be separated away from the point of load V I Chip package simplifies heat sink design VTM Part Number MV036F011M100 MV036F011M100 MV036F015M080 MV036F015M080 MV036F022M055 MV036F030M040 MV036F045M027 2 Product Grade Pin Style Operating Temp.( C) 1 Short Solder H –40 to 100 M –55 to 100 US Out Low Noise Eliminates bulk capacitance at point of load Desired Load Voltage (Vdc) 1.0 1.2 1.5 1.8 2.0 3.3 5.0 Input Voltage 7 14 – 50 VIN S U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS CD NC OS SG SC VH Output Current (A) Input Voltage Designator Filter Input Attenuator Module M In VICOR CORP. MADE IN USA Higher Efficiency and Power Density 0 MP Pre-Regulator Module 7 Efficiency (%) Efficiency (%) Part Numbering Chart, PRMs and VTMs 036 Parallel for Higher Power M-FIAM Superior Performance 95 MV 5 Vdc, 200 W U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS Isolation & Transformation Efficiency vs. Output Current F US Out US 100 028 NRTL S C Together, the PRM and the VTM chip set provides the full functionality of a DC-DC converter, but with breakthrough performance and flexibility in a rugged, miniature package. MP PC VC TM MP028F036M12AL C S C –Out Transient Immunity MIL-STD-1275B Part Numbering Chart, M-FIAM7 In VICOR CORP. MADE IN USA MV036F045M027 AP9297PRN222524 Out –Out VICOR CORP. MADE IN USA Out Out U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS In –Out PC VC TM VTM VICOR CORP. MADE IN USA U.S. PATS. LISTED ON PACKING MATERIALS & DATASHEETS PRM –In Out –Out M-FIAM7 The PRM accepts a wide input of 16 – 50 Vdc and provides a nominal 36 Vdc factorized bus voltage (Vf) controllable over 26 – 50 Vdc to regulate the VTM output. Desired Load Voltage (Vdc) 10 12 15 24 28 36 48 VTM Part Number MV036F090M013 MV036F120M010 MV036F180M007 MV036F240M005 MV036F240M005 MV036F360M003 MV036F360M003 Max VTM Output Current (A) 13.3 10.0 6.7 5.0 5.0 3.3 3.3 Load step with 100 uF input capacitance and no output capacitance (MV036F120M010) Low thermal impedance to the PC board and heat sink nto Log o er.com w o vicorp r call o 00 35-62 800-7 er your to ord n boards atio evalu
VI Chip Qualification Testing Test Standard Environment Acceleration To determine the ability of parts to withstand constant acceleration, as an indicator of the mechanical strength limits. MIL-STD-810F, Method 513.5, Procedure II, Operational Acceleration step 2 g, 6 direction Altitude To observe low air pressure effects on either operational or non-operational design parameters. MIL-STD-810D, Method 500.4, Procedure I & II 40,000 ft. and 70,000 ft. operational Explosive Atmosphere To determine the ability of equipment to operate in the presence of an explosive atmosphere. MIL-STD-810F, Method 511.4, Procedure I, Operational Fuel-air explosive atmospheres Vicor internal reference EIAJESD22-A108C Nominal line, 75% load, temperature within 5 C max. operational MIL-STD-810F, Method 507.4 240 hours, 95% RH High Temperature Operational Life An operational test used to detect thermally activated failure mechanisms. Humidity A humidity test simulates the moisture-laden air found in tropical regions. Mechanical Shock To determine the ability to withstand mechanical shocks from suddenly applied forces or an abrupt change in motion produced by handling, transportation or field operation. JESD22-B104C, Service Condition C 100 g, 2 ms shock, 10 shock / axis, 3 axis, 30 total JESD22-B103B, Service Condition B Resistance to Solvents Determines the resistance to externally applied solvents. MIL-STD-883G, Method 2015.13 Ambient temperature, ambient humidity Temperature Cycle Conducted to determine the ability of devices to withstand mechanical stresses induced by alternating high and low temperature extremes. Vibration from 2 – 500 Hz, 30 minutes / axis, 3 axis, 90 minutes total Tel: 33 1 34 52 18 30 Fax: 33 1 34 52 28 30 E-mail: vicorfr@vicr.com Our global technical support team is staffed with applications engineers to provide the product, application Tel: 49 89 962 439 0 Fax: 49 89 962 439 39 E-mail: vicorde@vicr.com and technical assistance customers need concerning our products and power solutions. Our facilities house electronics laboratories where our Vicor Italy Tel: 39 02 2247 2326 Fax: 39 02 2247 3166 E-mail: vicorit@vicr.com applications engineers can evaluate specific customer design issues and offer a wide range of component- Vicor UK based power solutions that include –55 C to 125 C, 500 cycles Tel: 44 1276 678222 Fax: 44 1276 681269 E-mail: vicoruk@vicr.com distributed power, current sharing, JESD22-A104-B N 1 redundancy, thermal management, and compliance with safety and performance standards. Vicor Japan Co., Ltd. Environment MIL-STD-883C, Method 3015 Ambient temperature, ambient humidity Fungus To determine if a material(s) will support the growth of specific fungi. MIL-STD-810F, Method 508.4 Section II Severe climate conditions Salt Fog To determine the resistance of the equipment to the effects of a salt atmosphere, primarily corrosion. MIL-STD-810F, Method 509.4 Salt-fog harsh environment MIL-STD-202G, Method 208H Continuous solder coating for a minimum of 95% surface area Terminal Strength Determines the resistance to external force on the terminals. MIL-STD-202G, Method 211A Test Condition A, 1/2 to 5 lbs. Ambient temperature, ambient humidity HALT Demonstrates product design margin and robustness. Vicor internal reference Destruct limits determined Operational limits verified Solderability To evaluate the solderability of terminations that are normally joined by a soldering operation. Fax: 978-749-3341 or E-mail: apps@vicr.com 85 C, 85% RH, high-line input voltage Standard Electro Static Discharge Classifies the device according to it's susceptibility to damage or degradation by exposure to electrostatic discharge. Vicor France JESD47 VI Chip Characterization Process Test 800-927-9474 Vicor Germany Random Mechanical Vibration To evaluate the construction, materials and mounting of the device for ruggedness. Temperature Humidity Bias An operational test that evaluates the reliability of the device package in humid environments. For applications support in the U.S. call Tel: 81 3 5487 5407 Fax: 81 3 5487 3885 E-mail: apps@vicorpower.jp Vicor Hong Kong Tel: 852-2956-1782 Fax: 852-2956-0782 E-mail: hkapps@vicr.com Military COTS P/N 33115 vicorpower.com 800-735-6200 12/13 Rev 2.0 28 V DC-DC VI Chip Modules
VI Chip Qualification Testing Test Standard Environment Acceleration To determine the ability of parts to withstand constant acceleration, as an indicator of the mechanical strength limits. MIL-STD-810F, Method 513.5, Procedure II, Operational Acceleration step 2 g, 6 direction Altitude To observe low air pressure effects on either operational or non-operational design parameters. MIL-STD-810D, Method 500.4, Procedure I & II 40,000 ft. and 70,000 ft. operational Explosive Atmosphere To determine the ability of equipment to operate in the presence of an explosive atmosphere. MIL-STD-810F, Method 511.4, Procedure I, Operational Fuel-air explosive atmospheres Vicor internal reference EIAJESD22-A108C Nominal line, 75% load, temperature within 5 C max. operational MIL-STD-810F, Method 507.4 240 hours, 95% RH High Temperature Operational Life An operational test used to detect thermally activated failure mechanisms. Humidity A humidity test simulates the moisture-laden air found in tropical regions. Mechanical Shock To determine the ability to withstand mechanical shocks from suddenly applied forces or an abrupt change in motion produced by handling, transportation or field operation. JESD22-B104C, Service Condition C 100 g, 2 ms shock, 10 shock / axis, 3 axis, 30 total JESD22-B103B, Service Condition B Resistance to Solvents Determines the resistance to externally applied solvents. MIL-STD-883G, Method 2015.13 Ambient temperature, ambient humidity Temperature Cycle Conducted to determine the ability of devices to withstand mechanical stresses induced by alternating high and low temperature extremes. Vibration from 2 – 500 Hz, 30 minutes / axis, 3 axis, 90 minutes total Tel: 33 1 34 52 18 30 Fax: 33 1 34 52 28 30 E-mail: vicorfr@vicr.com Our global technical support team is staffed with applications engineers to provide the product, application Tel: 49 89 962 439 0 Fax: 49 89 962 439 39 E-mail: vicorde@vicr.com and technical assistance customers need concerning our products and power solutions. Our facilities house electronics laboratories where our Vicor Italy Tel: 39 02 2247 2326 Fax: 39 02 2247 3166 E-mail: vi
28 vdc 3.3 vdc, 35 a u -in in -out out pr n cil tm v cd n o sg vh s c nrtl us mp028f036m12al ap4200prn020234. sp a tli edo nck g m r & h prm vicor corp. made in usa s cusnrtl -out out -out out -in pc vc tm in mv 036f 4 vt m a p9 27 rn 5 4 u.s . p a tli edo nck g m r & h vi corp. m ade in us 39.6 vdc 28 vdc 12 .
EMI FILTER There are several types of filters, for example, passive EMI filter, active EMI filter and hybrid EMI filter. However, the passive EMI filter is simpler than others. A typical procedure used in [4, 5] is considered to design power line EMI filter. A basic network topology is used, C-L-C for DM filter and L-C
Automotive EMC testing with Keysight Jon Kinney RF/uW Applications Engineer 11/7/2018. Page How to evaluate EMI emissions with a spectrum/signal analyzer ? Keysight EMI Solutions 2 . Page Getting started –Basic terms Keysight EMI Solutions EMI, EMS, EMC 3 EMI EMS EMC Today, We focus here ! Page Why bother? EMC evaluation is along with your product NPI cycle 4 EMI Troubleshooting EMI Pre .
A rt emi s Fowl B ook 2 : Th e A rc t i c I n c i d en t A rt emi s Fowl B ook 3 : E t ern i t y C od e A rt emi s Fowl B ook 4 : O p al Dec ep t i on A rt emi s Fowl B ook 5 : Lost C ol on y A rt emi s Fowl B ook 6 : Ti me Parad ox A rt emi s Fowl B ook 7 : At l an t i s C omp l ex. For Betty. A rt e
steady state response, that is (6.1) The transient response is present in the short period of time immediately after the system is turned on. If the system is asymptotically stable, the transient response disappears, which theoretically can be recorded as "! (6.2) However, if the system is unstable, the transient response will increase veryFile Size: 306KBPage Count: 29Explore furtherSteady State vs. Transient State in System Design and .resources.pcb.cadence.comTransient and Steady State Response in a Control System .www.electrical4u.comConcept of Transient State and Steady State - Electrical .electricalbaba.comChapter 5 Transient Analysis - CAUcau.ac.krTransient Response First and Second Order System .electricalacademia.comRecommended to you b
the predicted DM EMI noise is good to evaluate the EMI performance. Based on the noise prediction, the worst case analysis of the DM EMI noise in the CRM PFC is applied and the worst case can be found at some line and load condition, which will be a great help to the EMI filter design and meanwhile leave an opportunity for the
EMI AND THE CT SCANNER (B) The year 1977 looked like it would be a very good one for EMI medical inc., a North American subsidiary of EMI Ltd. EMI’s CT scanner had met with enormous success in the American market. (Ex
A procedure for designing EMI filters will be presented in this study. It is based on the analysis of conducted EMI induce by the DC-DC converter. II. EMI FILTER DESIGN The EMI filters are used to reduce the common mode and differential mode emissions induced by the power converters. To design of EMC filter, it is necessary to separate conducted
Design of EMI Filter for Boost PFC Circuit www.iosrjournals.org 54 Page Figure 7: Result of Simulink model of bridge rectifier without EMI filter The circuit with EMI filter is shown below in which the distortion is reduced with combining the bridge rectifier and inductor EMI filter.
