NBM3814V60E12A7C00

Not Recommended For New Designs NBM™ in a VIA™ Package Bus Converter NBM3814x60E12A7yzz ® S US C C NRTL US Non-Isolated, Fixed-Ratio DC-DC Converter Features & Benefits Product Ratings • Up to 170A continuous low-voltage-side current • Fixed transformation ratio (K) of 1/5 • Up to 1046W/in3 power density • 97.8% peak efficiency VHI = 54V (36 – 60V) ILO = up to 170A VLO = 10.8V (7.2 – 12.0V) (no load) K = 1/5 Product Description • Bidirectional operation capability The NBM3814x60E12A7yzz in a VIA package is a high-efficiency Bus Converter, operating from a 36 to 60VDC high-voltage bus to deliver a non-isolated 7.2 to 12VDC unregulated, low voltage. • Integrated ceramic capacitance filtering • Parallel operation for multi-kW arrays This unique, ultra-low-profile module incorporates DC‑DC conversion and integrated filtering in a chassis- or PCB‑mount form factor. • OV, OC, UV, short circuit and thermal protection • 3814 package The NBM offers low noise, fast transient response and industry‑leading efficiency and power density. • High MTBF • Thermally enhanced VIA package Leveraging the thermal and density benefits of Vicor VIA packaging technology, the NBM module offers flexible thermal management options with very low top- and bottom-side thermal impedances. Typical Applications When combined with downstream Vicor DC-DC conversion components and regulators, the NBM allows the Power Design Engineer to employ a simple, low-profile design, which will differentiate the end system without compromising on cost or performance metrics. • DC Power Distribution • Information and Communication Technology (ICT) Equipment • High-End Computing Systems The NBM non-isolated topology allows start up and steady‑state operation in forward and reverse directions. It provides bidirectional protections. However if the powertrain is disabled by any protection and VLO is present, then a voltage equal to VLO minus two diode drops will appear on the high-voltage side. • Automated Test Equipment • Industrial Systems • High-Density Energy Systems • Transportation Size: 3.76 x 1.40 x 0.37in [95.59 x 35.54 x 9.40mm] Part Ordering Information Product Function Package Length Package Width Package Type NBM 38 14 x NBM = Non-Isolated Bus Converter Module Length in Inches x 10 Width in Inches x 10 B = Board VIA V = Chassis VIA [a] High-Side Max Max Max Voltage Product Grade High‑Side Low‑Side Low‑Side Range (Case Temperature) Voltage Voltage Current Ratio 60 E 15 Internal Reference High-Temperature Current Derating may apply; See Figure 1, specified thermal operating area. NBM™ in a VIA™ Package Page 1 of 25 Rev 1.6 08/2018 A7 Option Field y zz C = –20 to 100°C [a] T = –40 to 100°C [a] 00 = Chassis/Always On 04 = Short Pin/Always On 08 = Long Pin/Always On NBM3814x60E12A7yzz Not Recommended For New Designs Typical Applications NBM in a VIA Package FUSE +HI +LO LO Side HI Side V HI V PGND PoL LO NBM3814x60E12A7yzz at point-of-load providing fixed ratio step-down DC-DC conversion to PoL devices. NBM is operating in forward direction. NBM in a VIA Package FUSE +HI +LO LO Side HI Side LOAD V PGND HI NBM3814x60E12A7yzz providing fixed ratio step-up DC-DC conversion. NBM is operating in reverse direction. NBM™ in a VIA™ Package Page 2 of 25 Rev 1.6 08/2018 V LO NBM3814x60E12A7yzz Not Recommended For New Designs Pin Configuration 10 1 TOP VIEW 12 3 +HI PGND PGND +LO +HI PGND PGND +LO 2 11 13 4 2 11 13 4 NBM3814 in a VIA Package - Chassis (Lug) Mount TOP VIEW +HI PGND PGND +LO +HI PGND PGND +LO 10 12 1 3 NBM3814 in a VIA Package - Board (PCB) Mount Pin Descriptions Pin Number Signal Name Type 1, 2 +HI HIGH SIDE POWER High-voltage-side positive power terminal 3, 4 +LO LOW SIDE POWER Low-voltage-side positive power terminal 10, 11, 12, 13 PGND POWER RETURN NBM™ in a VIA™ Package Page 3 of 25 Function Common negative power terminal Rev 1.6 08/2018 Not Recommended For New Designs NBM3814x60E12A7yzz 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 +HI to PGND Min Max Unit –1 80 V 1 V/µs HI_DC or LO_DC Slew Rate +LO to PGND Isolation Voltage / Dielectric Withstand [b] [b] –1 16 V High-voltage side to case N/A VDC High-voltage side to low-voltage side N/A VDC Low-voltage side to case N/A VDC The PGND of the NBM in a VIA package is directly connected to the case. The NBM does not contain any insulation (isolation) from high-voltage side to low-voltage side. NBM™ in a VIA™ Package Page 4 of 25 Rev 1.6 08/2018 Not Recommended For New Designs NBM3814x60E12A7yzz Electrical Specifications Specifications apply over all line and load conditions, unless otherwise noted; boldface specifications apply over the temperature range of –40°C ≤ TCASE ≤ 100°C (T-Grade); all other specifications are at TCASE = 25ºC unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit 60 V 15 V General Powertrain Specification – Forward Direction Operation (High-Voltage Side to Low-Voltage Side) HI-Side Voltage Range, (Continuous) VHI_DC HI-Side Voltage Initialization Threshold VµC_ACTIVE HI-Side Quiescent Current IHI_Q 36 HI-side voltage where internal controller is initialized, (powertrain inactive) Disabled, VHI_DC = 54V 7 TCASE ≤ 100ºC 12 VHI_DC = 54V, TCASE = 25ºC No-Load Power Dissipation HI-Side Inrush Current Peak PHI_NL IHI_INR_PK 10 8 VHI_DC = 54V 19 14 VHI_DC = 36 – 60V 22 15 TCASE ≤ 100ºC DC HI-Side Current Transformation Ratio LO-Side Current (Continuous) LO-Side Current (Pulsed) Efficiency (Ambient) IHI_IN_DC K ILO_OUT_DC ILO_OUT_PULSE ηAMB 12 VHI_DC = 36 – 60V, TCASE = 25 ºC VHI_DC = 60V, CLO_EXT = 3000μF, RLOAD_LO = 20% of full-load current A At ILO_OUT_DC = 170A, TCASE ≤ 90ºC 34.4 High voltage to low voltage, K = VLO_DC / VHI_DC, at no load 1/5 TCASE ≤ 90°C 170 A 10ms pulse, 25% duty cycle, ILO_OUT_AVG ≤ 50% rated ILOC_OUT_DC 200 A VHI_DC = 54V, ILO_OUT_DC = 170A 96.5 97 VHI_DC = 36V to 60V, ILO_OUT_DC = 170A 95.6 VHI_DC = 54V, ILO_OUT_DC = 85A 97.3 97.8 96.2 96.5 % ηHOT VHI_DC = 54V, ILO_OUT_DC = 170A, TCASE = 90°C η20% 34A < ILO_OUT_DC < 170A 95 RLO_COLD VHI_DC = 54V, ILO_OUT_DC = 170A, TCASE = –40°C 0.5 1.1 1.5 RLO_AMB VHI_DC = 54V, ILO_OUT_DC = 170A 0.8 1.3 1.8 RLO_HOT VHI_DC = 54V, ILO_OUT_DC = 170A, TCASE = 90°C 1.1 1.7 2.0 LO-side voltage ripple frequency = 2x FSW 1.02 1.07 1.12 LO-Side Voltage Ripple FSW VLO_OUT_PP CLO_EXT = 0μF, ILO_OUT_DC = 170A, VHI_DC = 54V, 20MHz BW TCASE ≤ 100ºC NBM™ in a VIA™ Package Page 5 of 25 A V/V Efficiency (Hot) Switching Frequency W 50 Efficiency (Over Load Range) LO-Side Output Resistance mA % % 125 MHz mV 400 Rev 1.6 08/2018 mΩ Not Recommended For New Designs NBM3814x60E12A7yzz Electrical Specifications (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; boldface specifications apply over the temperature range of –40°C ≤ TCASE ≤ 100°C (T-Grade); all other specifications are at TCASE = 25ºC unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit General Powertrain Specification – Forward Direction Operation (High-Voltage Side to Low-Voltage Side), Cont. Effective HI-Side Capacitance (Internal) CHI_INT Effective value at 54VHI_DC Effective LO-Side Capacitance (Internal) CLO_INT Effective value at 10.8VLO_DC Rated LO-Side Capacitance (External) CLO_OUT_EXT Excessive capacitance may drive module into short circuit protection Rated LO-Side Capacitance (External), Parallel Array Operation CLO_OUT_AEXT CLO_OUT_AEXT Max = N • 0.5 • CLO_OUT_EXT MAX, where N = the number of units in parallel 16.80 µF 140 µF 3000 µF Powertrain Protection Specification – Forward Direction Operation (High-Voltage Side to Low-Voltage Side) Auto Restart Time tAUTO_RESTART Start up into a persistent fault condition. Non-latching fault detection given VHI_DC > VHI_UVLO+ 940 1010 ms HI-Side Overvoltage Lockout Threshold VHI_OVLO+ 63 66 69 V Hi Side Overvoltage Recovery Threshold VHI_OVLO– 60 63 66 V HI-Side Overvoltage Lockout Hysteresis VHI_OVLO_HYST 3 V HI-Side Overvoltage Lockout Response Time tHI_OVLO 30 µs HI-Side Undervoltage Lockout Threshold VHI_UVLO– 28 30 32 V HI-Side Undervoltage Recovery Threshold VHI_UVLO+ 32 34 36 V HI-Side Undervoltage Lockout Hysteresis VHI_UVLO_HYST 4 V tHI_UVLO 100 µs From VHI_DC = VHI_UVLO+ to powertrain active (i.e., one time start-up delay from application of VHI_DC to VLO_DC) 30 ms From powertrain active. Fast current limit protection disabled during soft start 1 ms HI-Side Undervoltage Lockout Response Time HI-Side Undervoltage Start-Up Delay tHI_UVLO+_DELAY HI-Side Soft-Start Time tHI_SOFT-START LO-Side Overcurrent Trip Threshold ILO_OUT_OCP LO-Side Overcurrent Response Time Constant tLO_OUT_OCP LO-Side Short Circuit Protection Trip Threshold ILO_OUT_SCP LO-Side Short Circuit Protection Response Time tLO_OUT_SCP Overtemperature Shutdown Threshold tOTP+ Overtemperature Recovery Threshold tOTP– Undertemperature Shutdown Threshold tUTP Undertemperature Restart Time NBM™ in a VIA™ Package Page 6 of 25 tUTP_RESTART 201 Effective internal RC filter 220 320 4 ms 250 A 1 Temperature sensor located inside controller IC °C 110 Temperature sensor located inside controller IC; Protection not available for M-Grade units. Start up into a persistent fault condition. Non-latching fault detection given VHI_DC > VHI_UVLO+ Rev 1.6 08/2018 µs 125 105 A 3 115 °C –45 °C s Not Recommended For New Designs NBM3814x60E12A7yzz Electrical Specifications (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; boldface specifications apply over the temperature range of –40°C ≤ TCASE ≤ 100°C (T-Grade); all other specifications are at TCASE = 25ºC unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit 12.0 V General Powertrain Specification – Reverse Direction Operation (Low-Voltage Side to High-Voltage Side) LO-Side Voltage Range, (Continuous) 7.2 VLO_DC VLO_DC = 10.8V, TCASE = 25ºC No-Load Power Dissipation PLO_NL 10 8.0 VLO_DC = 10.8V 12 19 VLO_DC = 7.2 – 12.0V, TCASE = 25ºC 14 VLO_DC = 7.2 – 12.0V 22 W DC LO-Side Current ILO_IN_DC At IHI_DC = 34A, TCASE ≤ 90ºC 172 A HI-Side Current (Continuous) IHI_OUT_DC TCASE ≤ 90°C 34 A 40.8 A HI-Side Current (Pulsed) Efficiency (Ambient) IHI_OUT_PULSE ηAMB 10ms pulse, 25% duty cycle, IHI_OUT_AVG ≤ 50% rated IHI_OUT_DC VLO_DC = 10.8V, IHI_OUT_DC = 34A 96.1 VLO_DC = 7.2V to 12.0V, IHI_OUT_DC = 34A 95.2 VLO_DC = 10.8V, IHI_OUT_DC = 17A 97.3 97.8 96.1 Efficiency (Hot) ηHOT VLO_DC = 10.8V, IHI_OUT_DC = 34A, TCASE = 90°C 95.8 Efficiency (Over Load Range) η20% 6.80A < IHI_OUT_DC < 34A 94.5 Hi Side Output Resistance HI-Side Voltage Ripple % % % RHI_COLD VLO_DC = 10.8V, IHI_OUT_DC = 34A, TCASE = –40°C 22 39 49 RHI_AMB VLO_DC = 10.8V, IHI_OUT_DC = 34A 28 49 72 RHI_HOT VLO_DC = 10.8V, IHI_OUT_DC = 34A, TCASE = 90°C 36 58 70 VHI_OUT_PP CHI_OUT_EXT = 0μF, IHI_OUT_DC = 34A, VLO_DC = 10.8V, 20MHz BW 625 Rev 1.6 08/2018 mΩ mV 1500 TCASE ≤ 100ºC NBM™ in a VIA™ Package Page 7 of 25 96.6 Not Recommended For New Designs NBM3814x60E12A7yzz Electrical Specifications (Cont.) Specifications apply over all line and load conditions, unless otherwise noted; boldface specifications apply over the temperature range of –40°C ≤ TCASE ≤ 100°C (T-Grade); all other specifications are at TCASE = 25ºC unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit Powertrain Protection Specification – Reverse Direction Operation (Low-Voltage Side to High-Voltage Side) Excessive capacitance may drive module into short circuit protection when starting from low-voltage side to high-voltage side Rated HI-Side Capacitance (External) CHI_OUT_EXT LO-Side Overvoltage Lockout Threshold VLO_OVLO+ 12.8 LO-Side Overvoltage Recovery Threshold VHI_OVLO– 12 LO-Side Overvoltage Lockout Response Time 100 µF 13.2 13.6 V 12.6 13.2 V 30 tHI_OVLO µs LO-Side Undervoltage Lockout Threshold VLO_UVLO– 5.6 6 6.4 V LO-Side Undervoltage Recovery Threshold VHI_UVLO+– 6.4 6.8 7.2 V LO-Side Undervoltage Lockout Response Time tLO_UVLO 100 HI-Side Overcurrent Trip Threshold IHI_OUT_OCP Powertrain is stopped but current can flow from LO side to HI side through MOSFET body diodes HI-Side Overcurrent Response Time Constant tHI_OUT_OCP Effective internal RC filter HI-Side Short Circuit Protection Trip Threshold IHI_SCP HI-Side Short Circuit Protection Response Time tHI_SCP NBM™ in a VIA™ Package Page 8 of 25 Powertrain is stopped but current can flow from LO side to HI side through MOSFET body diodes 40 44 4 50 64 A ms A 1 Rev 1.6 08/2018 µs µs NBM3814x60E12A7yzz Not Recommended For New Designs Operating Area 200 LO-Side Current (A) 180 160 140 120 100 80 60 40 20 0 –60 –40 –20 0 20 40 60 80 100 120 Case Temperature (ºC) 36 – 60V Figure 1 — Specified thermal operating area 1. The NBM in a VIA package is cooled through the non-pin-side case. 2. The thermal rating is based on typical measured device efficiency. 3. The case temperature in the graph is the measured temperature of the non-pin-side housing, such that the internal operating temperature does not exceed 125°C. 2500 2000 LO-Side Current (A) LO-Side Power (W) 2250 1750 1500 1250 1000 750 500 250 0 36 38 40 42 44 46 48 50 52 54 56 58 60 220 200 180 160 140 120 100 80 60 40 20 0 36 38 40 HI-Side Voltage (V) PLO_OUT_DC 42 44 PLO_OUT_PULSE ILO_OUT_DC LO-Side Capacitance (% Rated CLO_EXT_MAX) Figure 2 — Specified electrical operating area using rated RLO_HOT 110 100 90 80 70 60 50 40 30 20 10 0 0 20 40 60 LO-Side Current (% ILO_OUT_DC) Figure 3 — Specified HI-side start-up into load current and external capacitance NBM™ in a VIA™ Package Page 9 of 25 46 48 50 52 54 HI-Side Voltage (V) Rev 1.6 08/2018 80 100 ILO_OUT_PULSE 56 58 60 NBM™ in a VIA™ Package Rev 1.6 Page 10 of 25 08/2018 OUTPUT INPUT +VLO +VHI START UP tHI_UVLO+_DELAY VHI_UVLO+ VµC_ACTIVE VHI_OVLO+ VNOM OVERVOLTAGE VHI_UVLO- VHI_OVLO- E AG LIZ A LT N I N O T O I O V IN N ER RN R UR V U E T O T LL E E E TR -SID ID ID S N -I S H HI CO LO E RE CI I CU R tAUTO-RESTART T OR H S OVERCURRENT tLO_OUT_SCP > tHI_UVLO+_DELAY - HI E D SI RT A ST T T E ID -S I H EN TU RN SHUT DOWN EV OF F Not Recommended For New Designs NBM3814x60E12A7yzz Timing Diagram (Forward Direction) NBM™ in a VIA™ Package Rev 1.6 Page 11 of 25 08/2018 OUTPUT INPUT +VHI +VLO VLO_OVLO+ VNOM tHI_UVLO+_DELAY START UP VHI = +VLO – (~1.4V) VµC_ACTIVE VLO_UVLO+ OVERVOLTAGE VLO_UVLO- VLO_OVLO- E E IZ AG AL T I IT N OL ON IN N O RV N R E R R E LL TU TU OV RO IDE DE DE I I T N -S -S -S LO LO CO HI - LO > SI OVERCURRENT tHI_OUT_OCP S RE / LO T EN EV - D SI E TU F OF RED LINE: LOAD MUST NOT BE PRESENT TO PREVENT DAMAGE TO UNIT RN SHUT DOWN NT IT RE RCU R U CI RC RT E O OV SH NOT SUPPORTED CONDITION, PERMANENT DAMAGE MAY OCCUR DE TA RT Not Recommended For New Designs NBM3814x60E12A7yzz Timing Diagram (Reverse Direction) NBM3814x60E12A7yzz Not Recommended For New Designs Application Characteristics Temperature controlled via pin-side side cold plate, unless otherwise noted. All data presented in this section are collected from units processing power in the forward direction (high-voltage side to low-voltage side). See associated figures for general trend data. 20 98.0 Full-Load Efficiency (%) Power Dissipation (W) 18 16 14 12 10 8 6 4 2 0 36 38 40 42 44 46 48 50 52 54 56 58 97.5 97.0 96.5 96.0 95.5 95.0 –40 60 –20 0 TCASE: –40°C 25°C VHI_DC: 85°C Figure 4 — No-load power dissipation vs. VHI_DC 99 80 97 72 Power Dissipation (W) Efficiency (%) 40 60 80 100 36V 54V 60V Figure 5 — Full-load efficiency vs. temperature 95 93 91 89 87 85 83 81 64 56 48 40 32 24 16 8 0 79 0 17 34 51 68 85 102 119 136 153 0 170 17 34 VHI_DC: 36V 54V 51 68 85 102 119 136 153 170 153 170 LO-Side Current (A) LO-Side Current (A) VHI_DC: 60V Figure 6 — Efficiency at TCASE = –40°C 36V 54V 60V Figure 7 — Power dissipation at TCASE = –40°C 80 97 72 Power Dissipation (W) 99 95 Efficiency (%) 20 Case Temperature (ºC) HI-Side Voltage (V) 93 91 89 87 85 83 81 64 56 48 40 32 24 16 8 0 79 0 17 34 51 68 85 102 119 136 153 0 170 17 34 36V Figure 8 — Efficiency at TCASE = 25°C 54V 68 85 102 119 136 LO-Side Current (A) LO-Side Current (A) VHI_DC: 51 VHI_DC: 60V 36V 54V Figure 9 — Power dissipation at TCASE = 25°C NBM™ in a VIA™ Package Rev 1.6 Page 12 of 25 08/2018 60V NBM3814x60E12A7yzz Not Recommended For New Designs Application Characteristics (Cont.) Temperature controlled via pin-side side cold plate, unless otherwise noted. All data presented in this section are collected from units processing power in the forward direction (high-voltage side to low-voltage side). See associated figures for general trend data. 90 97 81 Power Dissipation (W) 99 Efficiency (%) 95 93 91 89 87 85 83 81 72 63 54 45 36 27 18 9 0 79 0 17 34 51 68 85 102 119 136 153 0 170 17 34 51 36V 54V VHI_DC: 60V Figure 10 — Efficiency at TCASE = 85°C LO-Side Voltage Ripple (mV) LO-Side Output Resistance (mΩ) 2 1 –20 0 20 40 60 80 100 119 136 153 170 36V 54V 153 170 60V 72 64 56 48 40 32 24 16 8 0 0 17 34 51 68 VHI_DC: 170A Figure 12 — RLO vs. temperature; nominal VHI_DC ILO_DC = 170A at TCASE = 85°C 80 85 102 119 136 LO-Side Current (A) Case Temperature (ºC) ILO_DC: 102 Figure 11 — Power dissipation at TCASE = 85°C 3 0 –40 85 LO-Side Current (A) LO-Side Current (A) VHI_DC: 68 384V Figure 13 — VLO_OUT_PP vs. ILO_DC; no external CLO_OUT_EXT. Board‑mounted module, scope setting: 20MHz analog BW NBM™ in a VIA™ Package Rev 1.6 Page 13 of 25 08/2018 NBM3814x60E12A7yzz Not Recommended For New Designs Application Characteristics (Cont.) Temperature controlled via pin-side side cold plate, unless otherwise noted. All data presented in this section are collected from units processing power in the forward direction (high-voltage side to low-voltage side). See associated figures for general trend data. Figure 14 — Full-load LO-side voltage ripple, 300µF CHI_IN_EXT; no external CLO_OUT_EXT. Board-mounted module, scope setting: 20MHz analog BW Figure 15 — 0 – 170A transient response: CHI_IN_EXT = 300µF, no external CLO_OUT_EXT Figure 16 — 170 – 0A transient response: CHI_IN_EXT = 300µF, no external CLO_OUT_EXT Figure 17 — Forward start up from application of VHI_DC = 54V, 20% ILO_DC, 100% CLO_OUT_EXT Figure 18 — Reverse start up from application of VLO_DC = 10.8V, 20% IHI_DC, 100% CHI_OUT_EXT NBM™ in a VIA™ Package Rev 1.6 Page 14 of 25 08/2018 Not Recommended For New Designs NBM3814x60E12A7yzz General Characteristics Specifications apply over all line, load conditions, unless otherwise noted; boldface specifications apply over the temperature range of –40°C ≤ TCASE ≤ 100°C (T-Grade); all other specifications are at TCASE = 25ºC unless otherwise noted. Attribute Symbol Conditions / Notes Min Typ Max Unit Mechanical Length L Lug (Chassis) Mount 95.34 [3.75] 95.59 [3.76] 95.84 [3.77] mm [in] Length L PCB (Board) Mount 95.34 [3.75] 95.59 [3.76] 95.84 [3.77] mm [in] Width W 35.29 [1.39] 35.54 [1.40] 35.79 [1.41] mm [in] 9.40 [0.37] 9.781 [0.385] Height H Volume Vol Weight W 9.019 [0.355] Without heatsink cm3 [in3] 130.4 [4.6] g [oz] Pin Material C145 copper, 1/2 hard Underplate Low-stress ductile Nickel 50 100 Palladium 0.8 6 Soft Gold 0.12 2 Whisker-resistant matte Tin 200 400 NBM3814x60E12A7yzz (T-Grade) –40 125 NBM3814x60E12A7yzz (C-Grade) –20 125 NBM3814x60E12A7yzz (T-Grade), derating applied, see safe thermal operating area –40 100 –20 100 Pin Finish (Gold) Pin Finish (Tin) mm [in] 31.93 [1.95] µin µin µin Thermal Operating Internal Temperature Operating Case Temperature TINT TCASE Thermal Resistance Pin Side θINT_PIN_SIDE Thermal Resistance Housing θHOU Thermal Resistance Non-Pin Side θINT_NON_PIN_SIDE NBM3814x60E12A7yzz (C-Grade), derating applied, see safe thermal operating area Estimated thermal resistance to maximum temperature internal component from isothermal pin/ terminal-side housing Estimated thermal resistance of thermal coupling between the pin-side and non‑pin‑side case surfaces Estimated thermal resistance to maximum temperature internal component from isothermal non-pin/ non-terminal housing Thermal Capacity °C 1.2 °C/W 0.47 °C/W 0.70 °C/W 52 Ws/°C Assembly Storage Temperature TST NBM3814x60E12A7yzz (T-Grade) –40 125 °C NBM3814x60E12A7yzz (C-Grade) –40 125 °C ESDHBM Human Body Model, “ESDA / JEDEC JDS-001-2012” Class I-C (1kV to