SMA6865MZ

SMA6860MZ Series High Voltage 3-Phase Motor Drivers Features and Benefits ▪ ▪ ▪ ns es ig ▪ The SMA6860MZ inverter power module (IPM) series provides a robust, highly-integrated solution for optimally controlling 3-phase motor power inverter systems and variable speed control systems used in energy-conserving designs to drive motors of residential and commercial appliances. These ICs take 230 VAC input voltage, and up to 2.5 A (continuous) output current. They can withstand voltages of up to 500 V (MOSFET breakdown voltage). The SMA6860MZ power package includes an IC with all of the necessary power elements (six MOSFETs), pre-driver ICs (two), and bootstrap diodes (three), needed to configure the main circuit of an inverter. This enables the main circuit of the inverter to be configured with fewer external components than traditional designs. D ▪ Description Built-in pre-drive IC MOSFET power element Alleviate noise generation by adjusting an internal resistor CMOS compatible input (5 V) High-side gate driver using bootstrap circuit or floating power supply Built-in protection circuit for controlling power supply voltage drop (UVLO on VB and VCC) Overcurrent protection (OCP), overcurrent limiting (OCL), and thermal shutdown (TSD) Output of fault signal during operation of protection circuit Output current 1.5, 2, or 2.5 A Small SIP (SMA 24-pin) ew ▪ ▪ ▪ ▪ ▪ Packages: Power SIP rN Not to scale fo Applications include residential white goods (home applications) and commercial appliance motor control: • Air conditioner fan • Small ventilation fan • Dishwasher pump Leadform 2452 de d Leadform 2451 en Functional Block Diagram VB3 UVLO UVLO UVLO m VB2 ec o m VCC1 VB1 Input Logic VBB High-Side Level Shift Driver R HIN1 HIN2 HIN3 UVLO ot COM1 W1 W2 V U SD1 N VCC 2 UVLO LIN1 LIN2 LIN3 COM2 SD2 Input Logic (OCP Reset ) Thermal Shutdown Low-Side Driver OCP LS 2 OCP and OCL LS1 OCL RC Figure 1. Driver block diagram SMA6860MZ-DS, Rev. 5 ¯¯2¯ terminals are used for both input and output. A. ¯S¯¯D¯¯1¯ and ¯S¯¯D ¯¯D ¯¯ B. ¯S¯¯D¯¯1¯ , ¯S 2¯, and ¯O¯¯C¯¯L¯ terminals are open-collector output. RC terminal is open-drain output. C. Blanking Time (tblank) is used in Overcurrent Limiting (OCL) and Overcurrent Protection (OCP). If the time exceeds the limit, the signal will be output (open-collector output turns on) on the ¯S¯¯D¯¯2¯ pin, and protection operation will start up. SANKEN ELECTRIC CO., LTD. http://www.sanken-ele.co.jp/en/ High Voltage 3-Phase Motor Drivers SMA6860MZ Series Selection Guide Continuous, IO(max) (A) Pulsed, IOP (max) (A) SMA6861MZ 250 2 3.0 SMA6862MZ 500 1.5 2.25 SMA6863MZ 500 2.5 3.75 SMA6864MZ 250 2.5 3.75 SMA6865MZ 500 2.5 3.75 Absolute Maximum Ratings, valid at TA = 25°C Characteristic Symbol Remarks ew SMA6861MZ SMA6862MZ VDSS SMA6863MZ VCC = 15 V, ID = 100 μA, VIN = 0 V rN MOSFET Breakdown Voltage D es ig MOSFET Breakdown Voltage, VDSS(min) (V) ns Output Current Part Number SMA6864MZ Unit 250 V 500 V 500 V 250 V 500 V Logic Supply Voltage VCC Between VCC and COM 20 V Bootstrap Voltage VBS Between VB and HS (U,V, and W phases) fo SMA6865MZ Rating V 2 A SMA6862MZ 1.5 A SMA6863MZ 2.5 A SMA6864MZ 2.5 A SMA6865MZ 2.5 A 3.0 A 2.25 A 3.75 A IO m en Output Current, Continuous de d 20 SMA6861MZ Output Current, Pulsed SMA6863MZ SMA6864MZ 3.75 A SMA6865MZ 3.75 A R Input Voltage VIN VSDX Pull-up Voltage for Overcurrent Limiting Pin VOCL ot Pull-up Voltage for Shutdown Pins Allowable Power Dissipation N SMA6862MZ IOP ec o m SMA6861MZ Thermal Resistance (Junction to Case) PD PW ≤ 100 μs, duty cycle = 1% HINx and LINx pins –0.5 to 7 V SDx pins 7 V 7 V TC = 25°C 28 W 4.46 °C/W RθJC All elements operating Thermal Resistance (Junction to Ambient) RθJA All elements operating 31.25 °C/W Case Operating Temperature TCOP –20 to 100 °C Tstg –40 to 150 °C Storage Temperature All performance characteristics given are typical values for circuit or system baseline design only and are at the nominal operating voltage and an ambient temperature, TA, of 25°C, unless otherwise stated. SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 2 High Voltage 3-Phase Motor Drivers SMA6860MZ Series Recommended Operating Conditions Symbol Remarks Min. SMA6861MZ – VBB – SMA6863MZ Between VBB and LS SMA6864MZ Logic Supply Voltage VCC Between VCC and COM Zener Voltage for VCCx Pins VZ Between VCC and COM RUP2 ¯¯C¯¯L¯ Pin Pull-up Resistor ¯O RUP1 Pull-up Resistor RC Pin RR CSDX Capacitor RC Pin d Capacitor ¯S¯¯D¯¯x and ¯O¯¯C¯¯L¯ Pins fo Pull-up Resistor ¯S¯¯D¯¯2¯ Pin rN VSDx, VOCL de Pull-up Voltage CC 400 V – 400 V – – 200 V – – 400 V 0.01 – 0.1 μF 13.5 15 16.5 V 18 – 20 V 4.5 5 5.5 V 3.3 – 10 kΩ 1 – 10 kΩ 33 – 390 kΩ 1 – 10 nF 1 – 4.7 nF 1.5 – – μs IINMIN(on) TJ = –20°C to 150°C 0.5 – – μs IINMIN(off) TJ = –20°C to 150°C 0.5 – – μs – – 20 kHz fPWM N ot R ec o m Switching Frequency – TJ = –20°C to 150°C en Minimum Input Pulse Width V tdead m Dead Time ew CSB Units 200 – D SMA6865MZ VBB Snubber Capacitor Max. – es ig SMA6862MZ Main Supply Voltage Typ. ns Characteristic SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 3 High Voltage 3-Phase Motor Drivers SMA6860MZ Series Typical Application Diagram Shows configuration for implementing current ¯¯C ¯¯L¯ and ¯S¯¯D¯¯1¯ pins tied together limiter function: ¯O 1 2 3 SMA6860MZ 10 HVIC SD1 9 8 HO 2 12 HS2 D 5 HIN 1 HIN 2 7 6 HO 3 COM1 HS3 VCC 2 M 11 13 CSB fo 23 HIN 3 es ig CSD1 rN RUP1 24 HS1 DZ1 ew 5V HO 1 VCC1 4 ns VB1 VB2 VB3 DZ2 17 OCL LVIC de MC U d LO 1 20 LIN2 en 19 LIN1 RR m 5V 15 5V RUP2 22 CSD2 21 RS 16 LO 3 RC 14 SD 2 COM 2 R ec o CC LIN3 m 18 LO 2 N ot 15 V NOTE: The external electrolytic capacitors should be placed as close to the IC as possible, in order to avoid malfunctions from external noise interference. Put a ceramic capacitor in parallel with the electrolytic capacitor if further reduction of noise susceptibility is necessary. SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 4 High Voltage 3-Phase Motor Drivers SMA6860MZ Series Typical Application Diagram Shows configuration without current limiter ¯¯D¯¯1¯ and ¯S¯¯D¯¯2¯ pins tied together function: ¯S 3 2 ns 1 10 VB1 HO1 VCC1 24 HS1 ZD es ig 4 VB2 VB3 5V 5 SD1 9 12 HS2 HIN2 HIN3 6 HO3 COM1 HVIC 11 rN 7 M ew HIN1 8 D HO2 Rup Rup1 HS3 13 23 fo CSD VCC2 ZD 15 22 21 LO2 RS 16 LO3 14 RC SD2 COM2 LVIC R ec o CC LIN3 m RR VRC LIN2 m 18 LIN1 en 19 de OCL 20 d LO1 17 N ot 15V NOTE: The external electrolytic capacitors should be placed as close to the IC as possible, in order to avoid malfunctions from external noise interference. Put a ceramic capacitor in parallel with the electrolytic capacitor if further reduction of noise susceptibility is necessary. SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 5 High Voltage 3-Phase Motor Drivers SMA6860MZ Series ELECTRICAL CHARACTERISTICS, valid at TA=25°C, unless otherwise noted Characteristics Symbol Conditions Min Typ Max Units ICC VCC = 15 V, TC = –20°C to 125°C – 2.7 5.0 mA IBX VBX = 15 V, VHIN = 5 V, TC = –20°C to 125°C – 135 380 μA VIH VCC = 15 V – 2.9 3.4 V VIL VCC = 15 V 1.6 2.1 – V VIhys VCC = 15 V VUVHhys VUVLL VUVLH ¯S¯¯D¯¯ x and ¯O¯¯C¯¯L¯ Output Voltage Overtemperature DetectionThreshold Temperature (Activation and Deactivation) High side, hysteresis VUVLhys Low side, hysteresis VSDX(on), VOCL VSDX = VOCL = 5 V, RUPX = 3.3 kΩ TDH TDL VCC = 15 V, high-side and low side TDhys VTRIP VCC = 15 V VLIM VCC = 15 V tblank R Bootstrap Diode Forward Voltage VFBD trrb Bootstrap Diode Series Resistor RBD N ot Bootstrap Diode Recovery Time MOSFET Breakdown Voltage VDSS 10.0 11.0 V 9.5 10.5 11.5 V – 0.5 – V 10.0 11.0 12.0 V 10.5 11.5 12.5 V – 0.5 – V – – 0.6 V 120 135 150 °C 100 115 130 °C – 20 – °C 1.1 V 0.5565 V VRC = 5 V, RR = 360 kΩ, CC = 0.0047 μF 2.0 – ms VCC = 15 V – – 2.0 – μs SMA6861MZ VR = 250 V – – 10 μA SMA6862MZ VR = 500 V – – 10 μA SMA6863MZ VR = 500 V – – 10 μA SMA6864MZ VR = 250 V – – 10 μA SMA6865MZ VR = 500 V – – 10 μA IF = 0.05 A – 0.8 1.3 V IF / IRP = 100 mA / 100 mA – 70 – ns Ω 168 210 252 SMA6861MZ 250 – – V SMA6862MZ 500 – – V 500 – – V 250 – – V SMA6863MZ VCC = 15 V, ID = 100 μA, VIN = 0 V SMA6865MZ IDSS 9.0 1.0 SMA6864MZ MOSFET Leakage Current μA 0.53 m ILBD ec o Bootstrap Diode Leakage Current V 500 0.9 m Blanking Time tp – 230 en Overcurrent Protection Hold Time 0.8 – 0.5035 de Overcurrent Protection Trip Voltage Overcurrent Limit Reference Voltage – es ig Low side, between VCC2 and COM2 rN Undervoltage Lock Out High side, between VBx and U, V, or W D VUVHL VUVHH VIN = 5 V ew IIN fo Input Voltage Hysteresis Input Current d Input Voltage ns Logic Supply Current Bootstrap Supply Current 500 – – V SMA6861MZ VCC = 15 V, VDS = 250 V, VIN = 0 V – – 100 μA SMA6862MZ VCC = 15 V, VDS = 500 V, VIN = 0 V – – 100 μA SMA6863MZ VCC = 15 V, VDS = 500 V, VIN = 0 V – – 100 μA SMA6864MZ VCC = 15 V, VDS = 250 V, VIN = 0 V – – 100 μA SMA6865MZ VCC = 15 V, VDS = 500 V, VIN = 0 V – – 100 μA Continued on the next page… SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 6 High Voltage 3-Phase Motor Drivers SMA6860MZ Series ELECTRICAL CHARACTERISTICS (continued), valid at TA=25°C, unless otherwise noted VSDF Max Units – 1.25 1.5 Ω SMA6862MZ VCC = 15 V, ID = 0.75 A, VIN = 5 V – 3.2 4.0 Ω SMA6863MZ VCC = 15 V, ID = 1.25 A, VIN = 5 V – 2.0 2.4 Ω SMA6864MZ VCC = 15 V, ID = 1.25 A, VIN = 5 V – 0.35 0.5 Ω SMA6865MZ VCC = 15 V, ID = 1.25 A, VIN = 5 V – 1.4 1.7 Ω SMA6861MZ VCC = 15 V, ID = 1.0 A, VIN = 5 V – 1.1 1.5 V SMA6862MZ VCC = 15 V, ID = 0.75 A, VIN = 5 V – 1.1 1.5 V SMA6863MZ VCC = 15 V, ID = 1.25 A, VIN = 5 V – 1.1 1.5 V SMA6864MZ VCC = 15 V, ID = 1.25 A, VIN = 5 V – 0.8 1.2 V SMA6865MZ VCC = 15 V, ID = 1.25 A, VIN = 5 V – 1.0 1.5 V ns Conditions N ot R ec o m m en de d fo rN MOSFET Diode Forward Voltage RDS(on) Typ VCC = 15 V, ID = 1.0 A, VIN = 5 V es ig MOSFET On State Resistance Min SMA6861MZ D Symbol ew Characteristics SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 7 High Voltage 3-Phase Motor Drivers SMA6860MZ Series SMA6861MZ SWITCHING CHARACTERISTICS, valid at TA=25°C, unless otherwise noted Characteristics Symbol Conditions Min Typ Max Units – 660 – ns – 25 – ns – 50 – ns tdH(off) – 560 – ns tfH – 10 – ns – 540 – ns 25 – ns tdH(on) trrH VBB = 150 V, VCC = 15 V, ID = 2.0 A, 0 V ≤ VIN ≤ 5 V, inductive load ns trH Switching Time, High Side trL Switching Time, Low Side trrL es ig tdL(on) – VBB = 150 V, VCC = 15 V, ID = 2.0 A, 0 V ≤ VIN ≤ 5 V , inductive load D tdL(off) 45 – ns – 500 – ns – 15 – ns Min Typ Max Units – 720 – ns ew tfL – Characteristics rN SMA6862MZ SWITCHING CHARACTERISTICS, valid at TA=25°C, unless otherwise noted Symbol Conditions trrH VBB = 300 V, VCC = 15 V, ID = 1.5 A, 0 V ≤ VIN ≤ 5 V, inductive load d trH Switching Time, High Side fo tdH(on) de tdH(off) tfH trL trrL VBB = 300 V, VCC = 15 V, ID = 1.5 A, 0 V ≤ VIN ≤ 5 V, inductive load 60 – ns – 110 – ns – 690 – ns – 30 – ns – 670 – ns – 70 – ns – 120 – ns tdL(off) – 590 – ns tfL – 30 – ns Min Typ Max Units tdH(on) – 820 – ns trH – 100 – ns ec o m m Switching Time, Low Side en tdL(on) – R SMA6863MZ SWITCHING CHARACTERISTICS, valid at TA=25°C, unless otherwise noted ot Characteristics N Switching Time, High Side Switching Time, Low Side SMA6860MZ-DS, Rev. 5 Symbol Conditions VBB = 300 V, VCC = 15 V, ID = 2.5 A, 0 V ≤ VIN ≤ 5 V, inductive load – 120 – ns tdH(off) – 740 – ns tfH – 30 – ns tdL(on) – 790 – ns trL – 110 – ns trrH trrL VBB = 300 V, VCC = 15 V, ID = 2.5 A, 0 V ≤ VIN ≤ 5 V, inductive load – 130 – ns tdL(off) – 700 – ns tfL – 30 – ns SANKEN ELECTRIC CO., LTD. 8 High Voltage 3-Phase Motor Drivers SMA6860MZ Series SMA6864MZ SWITCHING CHARACTERISTICS, valid at TA=25°C, unless otherwise noted Characteristics Symbol Conditions Min Typ Max Units – 730 – ns – 40 – ns – 75 – ns tdH(off) – 640 – ns tfH – 20 – ns – 660 – ns 40 – ns tdH(on) trrH VBB = 150 V, VCC = 15 V, ID = 2.5 A, 0 V ≤ VIN ≤ 5 V, inductive load ns trH Switching Time, High Side trL Switching Time, Low Side trrL es ig tdL(on) – VBB = 150 V, VCC = 15 V, ID = 2.5 A, 0 V ≤ VIN ≤ 5 V, inductive load D tdL(off) 55 – ns – 600 – ns – 30 – ns Min Typ Max Units – 750 – ns ew tfL – Characteristics rN SMA6865MZ SWITCHING CHARACTERISTICS, valid at TA=25°C, unless otherwise noted Symbol Conditions trrH VBB = 300 V, VCC = 15 V, ID = 2.5 A, 0 V ≤ VIN ≤ 5 V, inductive load d trH Switching Time, High Side fo tdH(on) de tdH(off) tfH trL trrL VBB = 300 V, VCC = 15 V, ID = 2.5 A, 0 V ≤ VIN ≤ 5 V, inductive load 60 – ns – 100 – ns – 680 – ns – 20 – ns – 640 – ns – 65 – ns – 100 – ns tdL(off) – 560 – ns tfL – 20 – ns V DS N ot R ec o m m Switching Time, Low Side en tdL(on) – ID Switching Characteristics Definitions SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 9 High Voltage 3-Phase Motor Drivers SMA6860MZ Series OCP H-side MOSFET L-side MOSFET L Off Off H L On L H Off H H On L L Off H L On H H L L H L L H H H L L H OCL ( = L )1 L ns Off Off Off Off On Off Off Off Off Off H Off On H Off On L Off Off Off Off Off H Off Off L Off Off H L Off Off L H Off On H H Off On L L Off Off H L On Off m en Off m ec o R ot Off On L L SD2 ( = L ) Off Off H L H UVLO ( VB )3 Off Off L de H H On d L UVLO ( VCC )2 Off On es ig L H Off On ew TSD Lin L rN Normal Hin fo Mode D Truth Table L H Off Off H H On Off N 1The OCL feature is enabled when the ¯ O¯¯C¯¯L¯ and ¯S¯¯D¯¯1¯ pins are tied together externally. If these pins are not tied when an OCL condition occurs, device operation continues in Normal mode. 2Returning to the Normal mode of operation from a V CC UVLO condition, a high-side MOSFET resumes switching on the rising edge of an HINx input. On the other hand, a low-side MOSFET resumes switching on the first logic high of a LINx input after release of the UVLO condition. 3Returning to the Normal mode of operation from a V UVLO condition, a high-side MOSFET resumes switching on the rising B edge of an HINx input. Note: To prevent a shoot-through condition, the external microcontroller should not drive HINx = LINx = H at the same time. SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 10 High Voltage 3-Phase Motor Drivers SMA6860MZ Series OCP Timing Diagram LIN ns LO es ig VTRIP LS1 tblank D OC P Release ew S D2 rN tp 3.5 V RC en de d fo Slope defined by RC, CC N ot R ec o m m Low-Side Logic TSD Timing Diagram Open-collector output transistor turned on SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 11 High Voltage 3-Phase Motor Drivers SMA6860MZ Series de d fo rN ew D es ig ns High-Side UVLO Timing Diagram m en Low-Side UVLO Timing Diagram UVLH UVLL UVLH ot R VCC2 ec o m LIN N LO SD2 SMA6860MZ-DS, Rev. 5 Open-collector output transistor turned on SANKEN ELECTRIC CO., LTD. 12 High Voltage 3-Phase Motor Drivers SMA6860MZ Series OCL Timing Diagram ¯ O¯¯C¯¯L¯ and ¯ S¯¯D¯¯1¯ pins connected externally; current-limiter function in use Enable resumption of high-side operation at next HIN rising edge ns HIN(a) High-side shutdown High-side shutdown HO D (a) ew LIN es ig Enable resumption of low-side operation at next LIN rising edge 3.3 μs 3.3 μs rN Low-side shutdown fo LO d LS1 en m VTH (2.1 V) m OCL, SD1 de 2 μs VOCL (0.5 V) 2 μs VTH (2.9 V) VTH (2.1 V) VTH (2.9 V) T= RUP1×CSD1 T= RUP1×CSD1 VTH (2.9 V) T= 50 CSD2 T= RUP2×CSD2 R SD2 ec o T= 50 CSD1 2 μs VTRIP (1 V) N ot RC 3.5 V T= 50 CC 5 μs T= RR×CC (a) Each HINx or LINx pin drives a independent side of a phase, that is, the high-side and the low-side swtiching devices of a U, V, or W motor coil phase are each driven separately, by the corresponding dedicated HINx or LINx SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 13 High Voltage 3-Phase Motor Drivers SMA6860MZ Series Shut Down Timing Diagram ns ¯S¯¯D ¯¯1¯ and ¯S¯¯D¯¯2¯ pins connected externally; current-limiter function not in use es ig HIN(a) ew D LIN(a) m en de d fo rN Slope defined by RC, CC N ot R ec o m (a) Each HINx or LINx pin drives a independent side of a phase, that is, the high-side and the low-side swtiching devices of a U, V, or W motor coil phase are each driven separately, by the corresponding dedicated HINx or LINx input SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 14 High Voltage 3-Phase Motor Drivers SMA6860MZ Series Pin-out Diagrams Leadform 2451 2 5 4 7 6 9 8 11 10 13 12 15 14 17 16 19 18 21 20 Leadform 2452 23 22 24 1 3 2 5 4 7 6 9 8 13 15 17 19 10 12 21 23 14 16 18 20 22 24 D Chamfer Side 11 ns 3 es ig 1 rN ew Chamfer on Opposite Side Terminal List Table Name VB1 High side bootstrap terminal (U phase) Function 2 VB2 High side bootstrap terminal (V phase) d fo Number 1 VB3 4 VCC1 High side logic supply voltage High side bootstrap terminal (W phase) High side shutdown input and UVLO fault signal output de 3 ¯S¯¯D ¯¯1¯ COM1 7 HIN3 High side input terminal (W phase) 8 HIN2 High side input terminal (V phase) 9 HIN1 10 VBB W1 R V m m High side input terminal (U phase) Main supply voltage Output of V phase W2 Output of W phase (connect to W1 externally) Low side source terminal (connect to LS1 externally) RC Overcurrent protection hold time adjustment input terminal 16 LS1 Low side source terminal (connect to LS2 externally) 17 ¯O¯¯C¯¯L¯ Output for overcurrent limiting 18 LIN3 Low side input terminal (W phase) 19 LIN2 Low side input terminal (V phase) 20 LIN1 Low side input terminal (U phase) 21 COM2 22 ¯S¯¯D¯¯2¯ Low side shutdown input and overtemperature, overcurrent, and UVLO fault signals output 23 VCC2 Low side logic supply voltage 24 U N 15 Output of W phase (connect to W2 externally) LS2 ot 14 High side logic GND terminal ec o 11 12 13 en 5 6 SMA6860MZ-DS, Rev. 5 Low side GND terminal Output of U phase SANKEN ELECTRIC CO., LTD. 15 High Voltage 3-Phase Motor Drivers SMA6860MZ Series Package Outline Drawing Leadform 2451 Gate protrusion es ig ns Dual rows, 24 alternating pins; pins bent 90° for horizontal case mounting; pin #1 in outer row 31.3 ±0.2 31 ±0.2 D 4 ±0.2 ew 2X Gate protrusion 10.2 ±0.2 1.27 ±0.1 A 1.27 ±0.6 B d +0.15 – 0.05 0.6 +0.15 – 0.05 de C 0.7 fo rN Branding Area 1.2 ±0.1 BSC 2X Exposed tie bar 3 ±0.5 BSC 2.2 ±0.7 BSC R0.65 MIN 4.4 REF 2.2 ±0.7 BSC View A 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 m ec o A Measured at pin exit from case B Measured at pin tips N ot R C Maximum dambar protrusion Leadform: 2451 Terminal core material: Cu Terminal plating: Ni and solder (Sn 97.5%, Ag 2.5%) plating Case material: Epoxy resin PCB Surface 0 to 0.55 3 en 2 m 1 0 to 0.55 29.21 ±0.7 View A Dimensions in millimeters Branding codes (exact appearance at manufacturer discretion): 1st line, lot: YMDD# Where: Y is the last digit of the year of manufacture M is the month (1 to 9, O, N, D) DD is the date # is the tracking letter 2nd line, type: SMA686xMZ Leadframe plating Pb-free. Device composition complies with the RoHS directive. SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 16 High Voltage 3-Phase Motor Drivers SMA6860MZ Series Package Outline Drawing Leadform 2452 Gate protrusion es ig ns Dual rows, 24 alternating pins; vertical case mounting; pin #1 opposite chamfer side 31.3 ±0.2 4 ±0.2 D 31 ±0.2 ew 2X Gate protrusion 1.2 ±0.1 BSC 10.2 ±0.2 rN 2X Exposed tie bar fo Branding Area 5 ±0.5 en de d 9.5 +0.7 – 0.5 View A R1 REF 0.5 +0.15 – 0.05 4.5 REF 1.27 ±0.5 A 4.5 ±0.5 0.6 +0.15 – 0.05 6 8 10 12 14 16 18 20 22 24 ec o m 4 m 29.21 ±0.6 2 1 ot N 5 7 Measured at pin tips R A 3 9 11 13 15 17 19 21 23 0.7 MAX Leadform: 2452 Terminal core material: Cu Terminal plating: Ni Recommended attachment: Solder dip (Sn-Ag-Cu) 0.7 MAX Deflection at pin bend View A Dimensions in millimeters Branding codes (exact appearance at manufacturer discretion): 1st line, lot: YMDD# Where: Y is the last digit of the year of manufacture M is the month (1 to 9, O, N, D) DD is the date # is the tracking letter 2nd line, type: SMA686xMZ Leadframe plating Pb-free. Device composition complies with the RoHS directive. SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 17 fo rN ew D es ig Soldering • When soldering the products, please be sure to minimize the working time, within the following limits: 260±5°C 10 s 380±5°C 5 s • Soldering iron should be at a distance of at least 1.5 mm from the body of the products Electrostatic Discharge • When handling the products, operator must be grounded. Grounded wrist straps worn should have at least 1 MΩ of resistance to ground to prevent shock hazard. • Workbenches where the products are handled should be grounded and be provided with conductive table and floor mats. • When using measuring equipment such as a curve tracer, the equipment should be grounded. • When soldering the products, the head of soldering irons or the solder bath must be grounded in other to prevent leak voltages generated by them from being applied to the products. • The products should always be stored and transported in our shipping containers or conductive containers, or be wrapped in aluminum foil. m m en de d Because reliability can be affected adversely by improper storage environments and handling methods, please observe the following cautions. Cautions for Storage • Ensure that storage conditions comply with the standard temperature (5°C to 35°C) and the standard relative humidity (around 40 to 75%); avoid storage locations that experience extreme changes in temperature or humidity. • Avoid locations where dust or harmful gases are present and avoid direct sunlight. • Reinspect for rust on leads and solderability of products that have been stored for a long time. Cautions for Testing and Handling When tests are carried out during inspection testing and other standard test periods, protect the products from power surges from the testing device, shorts between adjacent products, and shorts to the heatsink. Remarks About Using Silicone Grease with a Heatsink • When silicone grease is used in mounting this product on a heatsink, it shall be applied evenly and thinly. If more silicone grease than required is applied, it may produce stress. • Volatile-type silicone greases may permeate the product and produce cracks after long periods of time, resulting in reduced heat radiation effect, and possibly shortening the lifetime of the product. • Our recommended silicone greases for heat radiation purposes, which will not cause any adverse effect on the product life, are indicated below: ns High Voltage 3-Phase Motor Drivers SMA6860MZ Series Suppliers ec o Type G746 Shin-Etsu Chemical Co., Ltd. Momentive Performance Materials R YG6260 Dow Corning Toray Silicone Co., Ltd. N ot SC102 SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 18 High Voltage 3-Phase Motor Drivers D es ig ns SMA6860MZ Series ew • The contents in this document are subject to changes, for improvement and other purposes, without notice. Make sure that this is the latest revision of the document before use. rN • Application and operation examples described in this document are quoted for the sole purpose of reference for the use of the products herein and Sanken can assume no responsibility for any infringement of industrial property rights, intellectual property rights or any other rights of Sanken or any third party which may result from its use. d fo • Although Sanken undertakes to enhance the quality and reliability of its products, the occurrence of failure and defect of semiconductor products at a certain rate is inevitable. Users of Sanken products are requested to take, at their own risk, preventative measures including safety design of the equipment or systems against any possible injury, death, fires or damages to the society due to device failure or malfunction. de • Sanken products listed in this document are designed and intended for the use as components in general purpose electronic equipment or apparatus (home appliances, office equipment, telecommunication equipment, measuring equipment, etc.). m en When considering the use of Sanken products in the applications where higher reliability is required (transportation equipment and its control systems, traffic signal control systems or equipment, fire/crime alarm systems, various safety devices, etc.), and whenever long life expectancy is required even in general purpose electronic equipment or apparatus, please contact your nearest Sanken sales representative to discuss, prior to the use of the products herein. ec o m The use of Sanken products without the written consent of Sanken in the applications where extremely high reliability is required (aerospace equipment, nuclear power control systems, life support systems, etc.) is strictly prohibited. ot R • In the case that you use Sanken products or design your products by using Sanken products, the reliability largely depends on the degree of derating to be made to the rated values. Derating may be interpreted as a case that an operation range is set by derating the load from each rated value or surge voltage or noise is considered for derating in order to assure or improve the reliability. In general, derating factors include electric stresses such as electric voltage, electric current, electric power etc., environmental stresses such as ambient temperature, humidity etc. and thermal stress caused due to self-heating of semiconductor products. For these stresses, instantaneous values, maximum values and minimum values must be taken into consideration. N In addition, it should be noted that since power devices or IC's including power devices have large self-heating value, the degree of derating of junction temperature affects the reliability significantly. • When using the products specified herein by either (i) combining other products or materials therewith or (ii) physically, chemically or otherwise processing or treating the products, please duly consider all possible risks that may result from all such uses in advance and proceed therewith at your own responsibility. • Anti radioactive ray design is not considered for the products listed herein. • Sanken assumes no responsibility for any troubles, such as dropping products caused during transportation out of Sanken's distribution network. • The contents in this document must not be transcribed or copied without Sanken's written consent. SMA6860MZ-DS, Rev. 5 SANKEN ELECTRIC CO., LTD. 19