SANKEN ELECTRIC CO.,LTD Selection Guide Motor Driver IC for 3-Phase Brushless (250-600V power transistor built-in) The all contents in this document are as of date of publication. Make sure that this is the latest revision of the document before use. Please check the details of the product by data sheet. http://www.sanken-ele.co.jp/en HMD-SGE May 24, 2016 P.1 Motor Driver IC for 3-Phase Brushless (250-600V transistor) Sanken’s motor driver ICs in this document are included all following chip to one package; 3-phase inverter bridge using power transistors, gate driver circuit and bootstrap diodes. Sanken’s motor driver ICs achieve the down sizing of your motor circuit. You can choice from variety ICs according to your applications. Motor Driver IC Inverter Bootstrap Diode High Side Level Shift Driver Brushless Motor Controller 1 Shunt SMD Low Side Driver SX6800xMH 250V/2A 500V/1.5~2.5A 3 Shunt ZIP (Fully Molded) ZIP (Fully Molded) SMA682xMH 250V/2A 500V/1.0~2.5A 600V/1.5A SMA686xMZ 250V/2~2.5A 500V/1~2.5A SMA685xM ZIP (With Heatsink) SLA684xMZ* ZIP (With Heatsink) SLA6826MH 250V/2A SLA686xMZ 500V/2.5~3A SLA6816MZ* 600V/3A HMD-SGE May 24, 2016 500V/1.5~2.5A 600V/1.5A DIP SIM68xxM SCM126xMF 600V/3~5A 500V/2~3A 600V/2~5A 600V/10~30A * The ICs does not has bootstrap diode. You can choice optimal diodes. P.2 Application of Motor Driver IC (250-600V) for 3-Phase Brushless Drum Fan Fan Fan Fan Compressor Compressor Fan Indoor Air-conditioning Fun Washer Pump Washer Fun Refrigerator Compressor Outdoor Air-conditioning Fun Compressor Pump Washer Compressor Air-conditioning Compressor Compressor Packaged Air Conditioner Compressor Packaged Air Conditioner Fun Washer Drum SLA6816MZ SLA686xMZ SLA6826MH SMA686xMZ SMA682xMH SX6800xMH SCM126xMF SLA684xMZ SIM68xxM 1 shunt detection type SMA685xM 0 1 2 HMD-SGE May 24, 2016 3 5 10 Motor Current(A) 15 20 3shunt detection type 25 30 P.3 Motor Driver IC (250-600V) for 3-Phase Brushless Over View The following table shows the 3-phase brushless motor driver ICs that has 250-600V power transistor. You can choice from variety ICs according to your applications. *Bootstrap diodes + current limiting resistors Current detection 1 Shunt 3 Shunt IO Series Breakdown voltage 1.5~2.5A SX6800xMH 250V 500V 1.0~2.5A SMA682xMH 250V 500V 600V 1.0~2.5A SMA686xMZ 250V 500V 2.0A SLA6826MH 250V 2.5A~3A SLA686xMZ 500V 3A SLA6816MZ 600V 1.5~2.5A SMA685xM 500V 600V 2~5A SIM68xxM 500V 600V 3~5A SLA684xMZ 600V 10~30A SCM126xMF 600V HMD-SGE May 24, 2016 Package SOP36 ZIP24 ZIP24 (with heatsink) ZIP23 (with heatsink) ZIP24 DIP40 ZIP24 (with heatsink) DIP33 Input voltage level DBOOT* OCP TD TSD Features Page 3.3V /5.0V Built-in ○ - 135 Regulator output Overcurrent limiting P.5 3.3V /5.0V Built-in - 150 - Regulator output P.6 5.0V Built-in ○ - 135 Overcurrent limiting P.7 3.3V /5.0V Built-in - 150 - Regulator output P.6 5.0V Built-in ○ - 135 Overcurrent limiting P.7 3.3V /5.0V - ○ - - 3.3V /5.0V Built-in - 150 - 3.3V /5.0V Built-in ○ - 150 3.3V /5.0V - - 150 - 3.3V /5.0V Built-in ○ - 150 P.8 Regulator output P.9 Overcurrent limiting P.10 Regulator output P.11 Simultaneous on-state prevention P.12 P.4 250 V / 500 V, 1.5 A - 2.5 A, 3-Phase Brushless Motor Driver IC SX6800xMH Series Package SOP36 One-shunt Design Block Diagram VB1 VB2 VB31 VB32 VCC1 • Body-size:21.9mm×14.1mm • Pin spacing between low voltage and high voltage difference is 2.4 mm. • Thermal Resistance, Rj-A is 41.6 °C /W (All element operation ). • Power dissipation is 3.0 W • LF No. 1890 VBB1 VBB2 UVLO UVLO HIN1 HIN2 HIN3 Input Logic UVLO UVLO High Side Level Shift Driver W1 W2 V V1 V2 U COM1 SD VCC2 REG Features Built-in bootstrap diodes and current limiting resistors Input voltage level is 3.3 to 5.0 V REG LIN1 LIN2 LIN3 COM2 UVLO Input Logic (OCP reset) Thermal Shutdown Low Side Driver OCP OCP&OCL FO LS OCL Regulator output Protections: Overcurrent Protection (OCP) Overcurrent Limiting Function (OCL) Undervoltage Lockout for power supply (UVLO) Thermal Shutdown (TSD) : 135 °C (typ.) Shutdown signal input Series Selection Guide Products VDSS ID RDS(ON) max. SX68001MH 250V 2.0A 1.5Ω 1.5A 4.0Ω 2.5A 2.4Ω SX68002MH SX68003MH HMD-SGE May 24, 2016 500V P.5 250 V / 500 V / 600 V, 1.0 A - 2.5 A, 3-Phase Brushless Motor Driver IC SMA682xMH Series One-shunt Design Package ZIP24 Block Diagram VB1 BootDi Fully molded VB2 VB3 RBD VD VBB1 VBB2 VCC1 UVLO LF No. 2451 LF No. 2175 HIN1 HIN2 HIN3 Input Logic UVLO UVLO UVLO High Side Level Shift Driver COM1 U V W1 W2 VCC2 VREG LF No. 2452 Thermal Resistance, Rj-c = 4.46 °C /W (All element operation ) LF No. 2171 Thermal Resistance, Rj-c = 3.8 °C /W (All element operation ) Features Built-in bootstrap diodes and current limiting resistors LIN1 LIN2 LIN3 HMD-SGE May 24, 2016 UVLO Input Logic Thermal Detect Low Side Driver COM2 LS2 LS1 FO Series Selection Guide Products SLA6826MH SMA6821MH Regulator output SMA6820MX Input voltage level is 3.3 to 5.0 V SMA6822MH Protections: SMA6823MH Thermal Detection (TD): 150 °C (typ.) Undervoltage Lockout for power supply (UVLO) SMA6824MH Built in low dissipation power MOSFETs 7.5V Reg. VDSS ID RDS(ON) max. 250V 2.0A 1.5Ω 1.0A 1.5A 2.5A 1.5A 6.0Ω 4.0Ω 2.4Ω 3.5Ω 500V 600V Package With heatsink Fully molded P.6 250 V / 500 V, 1 A - 3 A, 3-Phase Brushless Motor Driver IC SMA/SLA686xMZ Series Package ZIP24 Fully molded One-shunt Design Block Diagram ZIP24 with aluminum heatsink VB1 VB2 VB3 UVLO UVLO UVLO VCC1 VBB UVLO HIN1 HIN2 HIN3 LF No. 2175 LF No. 2451 Input Logic High Side Level Shift Driver W1 W2 V COM1 SD1 VCC2 U UVLO LIN1 LIN2 LIN3 COM2 LF No. 2171 LF No. 2452 Input Logic (OCP reset) Thermal Shutdown Low Side Driver OCP Thermal Resistance, Rj-c = 4.46 °C /W (All element operation ) Thermal Resistance, Rj-c = 3.8 °C /W (All element operation ) Features Built-in bootstrap diodes and current limiting resistors Input voltage level is 5.0 V Protections: Overcurrent Protection (OCP) Overcurrent Limiting Function (OCL) Undervoltage Lockout for power supply (UVLO) Thermal Shutdown (TSD) : 135 °C (typ.) HMD-SGE May 24, 2016 LS2 LS1 OCP&OCL SD2 OCL RC Series Selection Guide Products SMA6861MZ SMA6864MZ SMA6860MZ SMA6862MZ SMA6863MZ SMA6865MZ SLA6868MZ SLA6870MZ VDSS 250V 500V ID 2.0A 2.5A 1.0A 1.5A 2.5A 3.0A RDS(ON) max. 1.5 Ω 0.5 Ω 6.0 Ω 4.0 Ω 2.4 Ω 1.7 Ω 2.4 Ω 1.7 Ω Package Fully molded With heatsink P.7 600 V, 3 A, 3-Phase Brushless Motor Driver IC SLA6816MZ One-shunt Design Package Block Diagram ZIP23 with aluminum heatsink VB1(2) VB2(3) VB3(4) UVLO UVLO UVLO VCC1(5) UVLO HIN1(9) HIN2(8) HIN3(7) Input Logic VBB1(10) VBB2(11) High Side Level Shift Driver COM1(6) LF No. 2151 LF No. 2153 Thermal Resistance, Rj-c = 3.8 °C /W (All element operation ) U(1) V(13) W1(12) W2(14) VCC2(23) UVLO LIN1(20) LIN2(19) LIN3(18) Input Logic (OCP reset) COM2(21) Low Side Driver OCP LS2(15) Features OCP FO(22) LS1(17) RCIN(16) Input voltage level is 3.3 to 5.0 V Protections: Overcurrent Protection (OCP) with adjustable OCP hold time Undervoltage Lockout for power supply (UVLO) HMD-SGE May 24, 2016 Series Selection Guide Products VCES IC VCE(SAT) typ. SLA6816MZ 600V 3.0A 1.75V P.8 500 V/600V, 1.5 A -2.5 A, for 3-shunt design, 3-Phase Brushless Motor Driver IC SMA685xM Series Package 3-shunt Design Block Diagram ZIP24 VB1(1) VB2(2) VB3(3) VCC1(4) VBB1(9) VBB2(10) UVLO HIN1(8) HIN2(7) HIN3(6) LF No. 2451 LF No. 2452 Thermal Resistance Rj-c = 4.46 °C /W (All element operation ) Features Built-in bootstrap diodes and current limiting resistors Input Logic UVLO UVLO UVLO High Side Level Shift Driver COM1(5) U(24) V(12) W1(11) W2(14) VCC2(23) VREG(16) 7.5V Reg. LIN1(20) LIN2(19) LIN3(18) UVLO Input Logic Low Side Driver COM2(21) LS3(15) LS2(13) LS1(17) Thermal Detect FO(22) 3-shunt resistor based current sensing circuit Built in low dissipation power MOSFETs Regulator output Input voltage level is 3.3 to 5.0 V Protections: Thermal Detection (TD): 150 °C (typ.) Undervoltage Lockout for power supply (UVLO) Series Selection Guide Products SMA6852MZ SMA6853MX SMA6854MZ HMD-SGE May 24, 2016 VDSS 500V 600V ID RDS(ON) max. 1.5A 4.0Ω 2.5A 2.4Ω 1.5A 3.5Ω P.9 500 V / 600 V, 2 A - 5 A, for 3-shunt design, 3-Phase Brushless Motor Driver IC SIM68xxM Series 3-shunt Design Block Diagram Package DIP40 VB1A VB1B • Pin pitch: -Pin spacing of low voltage difference is 1.778mm. -Pin spacing of high voltage difference is 3.556mm • Thermal Resistance, Rj-C is 3.6 °C /W (All element operation ) • LF No. 2971 VBB UVLO UVLO HIN1 HIN2 HIN3 Input Logic UVLO UVLO High Side Level Shift Driver W1 W2 V V1 V2 U COM1 SD VCC2 UVLO COM2 Features Built-in bootstrap diodes and current limiting resistors Input Logic (OCP reset) Thermal Shutdown Low Side Driver LS1 LS2 LS3A LS3B OCP OCP & OCL FO OCL OCP 3-shunt resistor based current sensing circuit Series Selection Guide Input voltage level is 3.3 to 5.0 V Protections: Overcurrent Protection (OCP) Overcurrent Limiting Function (OCL) Undervoltage Lockout for power supply (UVLO) Thermal Shutdown (TSD): 150 °C (typ.) SIM6813M Shutdown signal input SIM6821M HMD-SGE May 24, 2016 VB3 VCC1 LIN1 LIN2 LIN3 Isolation voltage: 1500 V for 1 min, UL recognized component VB2 UD Products Features UD: Under development VDSS/ VCES SIM6811M SIM6812M MOSFET SIM6822M IGBT, Low switching dissipation SIM6827M IGBT, Low switching dissipation 500V 600V ID/ IC RDS(ON)max./ VCE(SAT) typ. 2.0A 4.0 Ω 2.5A 2.4 Ω 3.0A 1.7 Ω 2.0A 3.5 Ω 5.0A 1.75 V P.10 600 V, 3 A - 5 A, for 3-shunt design, 3-Phase Brushless Motor Driver IC SLA684xMZ 3-shunt Design Package Block Diagram VB1 ZIP24 VB2 VB3 with aluminum heatsink LF No. 2175 VBB1 LF No. 2171 2178 (Short type) VCC1 VBB2 UVLO HIN1 HIN2 HIN3 UVLO UVLO UVLO High Side Level Shift Driver Input Logic COM1 4.5mm 3mm VCC2 VREG Thermal Resistance, Rj-c = 3.8 °C /W (All element operation ) Features Input voltage level is 3.3 to 5.0 V U V W1 W2 7.5V Reg. LIN1 LIN2 LIN3 Thermal Detect UVLO Low Side Driver Input Logic COM2 LS3 LS2 LS1 FO Regulator output 3-shunt resistor based current sensing circuit Protections: Undervoltage Lockout for power supply (UVLO) Thermal Detection (TD): 150 °C (typ.) Series Selection Guide Products SLA6845MZ SLA6846MZ HMD-SGE May 24, 2016 VCES 600V IC 3.0A 5.0A VCE(SAT) typ. 1.75V P.11 600 V, 10 A - 30 A, for 3-shunt design, 3-Phase Brushless Motor Driver IC SCM126xMF Series Package DIP33 3-shunt Design Block Diagram 7 VBB 6 VCC1 1 31 FO1 MICx VCCx FOx UVLO_VCC LINx HINx OCPx COMx U 32 LO1 LS1 8 HS1 Drive circuit HO1 15 9 10 HSx TSD 33 VB2 14 VCC2 Input logic Simultaneous on state prevention MIC1 4 COM1 5 HIN1 UVLO_VB Level shift 25 3 LIN1 VBx FO2 OCP2 HO2 11 LIN2 Drive circuit V MIC2 29 12 COM2 13 HIN2 OCP 28 HO1 2 OCP1 with copper heatsink LF No. 2552 Body-size: 47mm×19mm VB1 LO2 LO1 16 HS2 23 LS2 30 VB3 22 VCC3 17 FO3 HO3 18 OCP3 Features 19 LIN3 20 COM3 21 HIN3 Built-in bootstrap diodes and current limiting resistors MIC3 W 26 LO3 LS3 24 HS3 27 Input voltage level is 3.3 to 5.0 V 3-shunt resistor based current sensing circuit Series Selection Guide Protections: Overcurrent Protection (OCP) Simultaneous On-state Prevention Undervoltage Lockout for power supply (UVLO) Thermal Shutdown (TSD) :150 °C (typ.) Isolation voltage: 2500 V for 1 min, UL recognized component HMD-SGE May 24, 2016 Products UD SCM1261MF SCM1263MF SCM1265M SCM1266MF UD: Under development VCES IC VCE(SAT) typ. 600V 10 A 15 A 20 A 30 A 1.7V P.12 IMPORTANT NOTES All data, illustrations, graphs, tables and any other information included in this document as to Sanken’s products listed herein (the “Sanken Products”) are current as of the date this document is issued. All contents in this document are subject to any change without notice due to improvement of the Sanken Products, etc. Please make sure to confirm with a Sanken sales representative that the contents set forth in this document reflect the latest revisions before use. The Sanken Products are intended for use as components of general purpose electronic equipment or apparatus (such as home appliances, office equipment, telecommunication equipment, measuring equipment, etc.). Prior to use of the Sanken Products, please put your signature, or affix your name and seal, on the specification documents of the Sanken Products and return them to Sanken. When considering use of the Sanken Products for any applications that require higher reliability (such as transportation equipment and its control systems, traffic signal control systems or equipment, disaster/crime alarm systems, various safety devices, etc.), you must contact a Sanken sales representative to discuss the suitability of such use and put your signature, or affix your name and seal, on the specification documents of the Sanken Products and return them to Sanken, prior to the use of the Sanken Products. The Sanken Products are not intended for use in any applications that require extremely high reliability such as: aerospace equipment; nuclear power control systems; and medical equipment or systems, whose failure or malfunction may result in death or serious injury to people, i.e., medical devices in Class III or a higher class as defined by relevant laws of Japan (collectively, the “Specific Applications”). Sanken assumes no liability or responsibility whatsoever for any and all damages and losses that may be suffered by you, users or any third party, resulting from the use of the Sanken Products in the Specific Applications or in manner not in compliance with the instructions set forth herein. In the event of using the Sanken Products by either (i) combining other products or materials therewith or (ii) physically, chemically or otherwise processing or treating the same, you must duly consider all possible risks that may result from all such uses in advance and proceed therewith at your own responsibility. Although Sanken is making efforts to enhance the quality and reliability of its products, it is impossible to completely avoid the occurrence of any failure or defect in semiconductor products at a certain rate. You must take, at your own responsibility, preventative measures including using a sufficient safety design and confirming safety of any equipment or systems in/for which the Sanken Products are used, upon due consideration of a failure occurrence rate or derating, etc., in order not to cause any human injury or death, fire accident or social harm which may result from any failure or malfunction of the Sanken Products. Please refer to the relevant specification documents and Sanken’s official website in relation to derating. No anti-radioactive ray design has been adopted for the Sanken Products. No contents in this document can be transcribed or copied without Sanken’s prior written consent. HMD-SGE May 24, 2016 The circuit constant, operation examples, circuit examples, pattern layout examples, design examples, recommended examples, all information and evaluation results based thereon, etc., described in this document are presented for the sole purpose of reference of use of the Sanken Products and Sanken assumes no responsibility whatsoever for any and all damages and losses that may be suffered by you, users or any third party, or any possible infringement of any and all property rights including intellectual property rights and any other rights of you, users or any third party, resulting from the foregoing. All technical information described in this document (the “Technical Information”) is presented for the sole purpose of reference of use of the Sanken Products and no license, express, implied or otherwise, is granted hereby under any intellectual property rights or any other rights of Sanken. Unless otherwise agreed in writing between Sanken and you, Sanken makes no warranty of any kind, whether express or implied, including, without limitation, any warranty (i) as to the quality or performance of the Sanken Products (such as implied warranty of merchantability, or implied warranty of fitness for a particular purpose or special environment), (ii) that any Sanken Product is delivered free of claims of third parties by way of infringement or the like, (iii) that may arise from course of performance, course of dealing or usage of trade, and (iv) as to any information contained in this document (including its accuracy, usefulness, or reliability). In the event of using the Sanken Products, you must use the same after carefully examining all applicable environmental laws and regulations that regulate the inclusion or use of any particular controlled substances, including, but not limited to, the EU RoHS Directive, so as to be in strict compliance with such applicable laws and regulations. You must not use the Sanken Products or the Technical Information for the purpose of any military applications or use, including but not limited to the development of weapons of mass destruction. In the event of exporting the Sanken Products or the Technical Information, or providing them for non-residents, you must comply with all applicable export control laws and regulations in each country including the U.S. Export Administration Regulations (EAR) and the Foreign Exchange and Foreign Trade Act of Japan, and follow the procedures required by such applicable laws and regulations. Sanken assumes no responsibility for any troubles, which may occur during the transportation of the Sanken Products including the falling thereof, out of Sanken’s distribution network. Although Sanken has prepared this document with its due care to pursue the accuracy thereof, Sanken does not warrant that it is error free and Sanken assumes no liability whatsoever for any and all damages and losses which may be suffered by you resulting from any possible errors or omissions in connection with the contents included herein. Please refer to the relevant specification documents in relation to particular precautions when using the Sanken Products, and refer to our official website in relation to general instructions and directions for using the Sanken Products. DSGN-CEZ-16001 P.13