SANKEN ELECTRIC CO.,LTD Selection Guide IC for LED Lighting 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 LEDIC-SGE Feb. 17, 2016 P.1 Table of Contents LED Driver IC Overview P.3 Application • Off-line Non-isolated Buck Type (Low Power Application) P.4 • Off-line Non-isolated Buck-boost Type (Low Power Application) P.5 • Off-line Flyback Type (Low to Middle Power Application) P.6 • DC/DC converter P.7 • High Power and Smart Application P.8 LED Driver Lineup for Small LED Lighting (Non-isolated) P.9 Class-C Support LED Driver Lineup (Flyback) P.12 DC/DC LED Driver Lineup P.16 IC Lineup for High Power and Smart LED Lighting P.22 IMPORTANT NOTES P.26 LEDIC-SGE Feb. 17, 2016 P.2 LED Driver IC Overview Back to contents Downsized PCB Spot light MR16 DC/DC LC57xx series High Power and Smart Lighting Down light LED bulb LED fluorescent lamp Ceiling light PFC Circuit- less Class-C Support at Light Load Isolated AC/DC Flyback Convertor DIP8 LC5540LD SOP8 SOIC8 (Exposed) Street light Non-isolated Buck and Buck-boost Convertor LC5540LF TO-220F High Power & Smart Application PFC : CRM, CCM and DCM control ICs LC5560LD (Buck / Buck-boost / Flyback, Class-C support) LC5550LD DIP8 DIP8 (Buck, Class-C support) LC5220 Low Component Count High Power Factor (Buck / Buck-boost ) SOP8 DIP8 Support Wide Power Range and Several Form Lamps. Main SMPS : LLC control ICs Auxiliary SMPS : PWM control ICs, LC201S Microcomputer: MD660x (8bit MCU) DC/DC LED Driver BL Series (1ch,2ch) External MOSFET LC57xx Series(1ch) Integrated MOSFET LC100N series (1ch) Balancer LEDIC-SGE Feb. 17, 2016 P.3 Off-line Non-isolated Buck Type (Low Power Application) Back to contents Small PCB VAC LC5220 series →P.10 SOP8 LED bulb DIP8 LED Driver Freewheel diode Class-C support and input capacitor less VAC LED Driver LC5550LD series →P.11 LC5560LD series →P.15 DIP8 LED bulb Down light LED fluorescent lamp Freewheel diode LEDIC-SGE Feb. 17, 2016 Notes: See the Selection Guide of diode about peripheral diodes. P.4 Off-line Non-isolated Buck-Boost Type (Low Power Application) Back to contents Small PCB VAC LC5220 series →P.10 SOP8 LED bulb DIP8 LED Driver Freewheel diode Class-C support and input capacitor less LC5560LD series →P.15 VAC LED bulb Down light LED fluorescent lamp LED Driver Freewheel diode LEDIC-SGE Feb. 17, 2016 DIP8 SOP8 Notes: See the Selection Guide of diode about peripheral diodes. P.5 Off-line Flyback Type (Low to Middle Power Application) Back to contents VAC Snubber diode Secondary rectification diode OVP Control LED Driver Cont. Average Current Control GND Photo lsolator LED Driver with Integrated Power MOSFET LC5560LD series (Non-isolated) LED bulb, down light and LED fluorescent lamp →P.15 DIP8 LC5540LD series (Isolated) DIP8 LC5540 LF series (Isolated) Down light and LED fluorescent lamp →P.14 Ceiling light and street lamp →P.13 TO-220F-7L Notes: See the Selection Guide of diode about peripheral diodes. LEDIC-SGE Feb. 17, 2016 P.6 DC/DC converter Buck converter Back to contents Boost converter Freewheel diode Rectification diode DC DC LED Driver LED Driver LC5710S* LC5720S* SOP8 →P.18 HSOP8 →P.19 (Exposed) LC5710S* LC5720S* Buck-boost converter Freewheel diode BL0100A BL0200 DC SOP8 →P.18 SOIC8 (Exposed) SOIC14 →P.20 SOP18 →P.21 →P.19 LED Driver LC5710S* LC5720S* LEDIC-SGE Feb. 17, 2016 SOP8 →P.18 HSOP8 →P.19 (Exposed) Notes: See the Selection Guide of diode about peripheral diodes. *Built-in power MOSFET. P.7 High Power and Smart Application Back to contents Bypass diode for PFC Rectification diode for PFC VAC Bootstrap diode DC/DC LED driver →P.16 REG PFC Control IC LLC Control IC VS PFC Error Amp. FB LED Driver GND PFC control ICs Microcomputer Main convertor LLC control ICs Photo lsolator Secondary rectification diode Snubber Auxiliary power supply PWM control ICs LC201S For non-isolated circuit, built-in linear regulator Microcomputer →P.24 VOUT Auxiliary power supply IC Error Amp. Cont. →P.23 FB GND GND Photo lsolator Notes: See the Selection Guide of diode about peripheral diodes. See the Selection Guide of AC/DC Convertor and PFC about PFC, LLC and PWM ICs. LEDIC-SGE Feb. 17, 2016 P.8 LED Driver Lineup for Small LED Lighting (Non-Isolated) Non-isolated type AC/DC driver High power factor AC/DC LED driver Series LC5220 VIN(MAX) 250V/450V Package SOP8 DIP8 LED bulb Application LED bulb Down light Back to contents LED fluorescent lamp Feature Link ・Buck / buck-boost ・PWM dimming P.10 LC5550LD LC5560 250V 650V LEDIC-SGE Feb. 17, 2016 DIP8 DIP8 LED bulb Down light LED fluorescent lamp ・Buck ・Class-C support ・Input electrolytic capacitorless LED bulb Down light LED fluorescent lamp ・Buck / buck-boost ・Flyback ・Class-C support ・Input electrolytic capacitorless ・Dimming P.11 P.15 P.9 ILED= 0.5A and 1.0A , VIN(MAX)= 250V and 450V Non-isolated Buck and Buck-boost LED Driver IC LC5220 Series SOP8 Back to Lineup Lineup DIP8 Part Number IO(MAX) LC5222D Buck and buck-boost LC5222S SLEEP Function LC5225D ENABLE Function Protections UVLO OPP* and OCP are latched shutdown TSD is auto restart LC5223D LC5226D *OPP : Protection when a free-wheeling diode is open Typical application circuit (Buck type) LEDIC-SGE Feb. 17, 2016 1.0A Package DIP8 250V 2.2Ω 450V 6Ω 250V 1.3Ω DIP8 450V 3Ω DIP8 0.5A LC5225S PWM Dimming Function MOSFET VDSS RDS(ON) SOP8 DIP8 SOP8 Pin arrangement Pin No. DIP8 SOP8 1 2 3 4 5 6 7 8 REG PWM REF SEN OUT VBB - GND REG PWM REF SEN OUT OUT VBB GND P.10 Input Electrolytic Capacitorless, IEC61000-3-2 Class-C Support Non-isolated Buck LED Driver IC LC5550 Series Back to Lineup Lineup DIP8 Package Buck LED driver DIP8 Input electrolytic capacitorless MOSFET POUT PWM freq. VDSS(min.) RDS(ON)(max.) AC230V Universal LC5555LD 72 kHz 3.95 Ω 10W 8W LC5556LD 60 kHz 1.9 Ω 16W 13W Part Number 650V High accuracy output current, ±5% PWM and quasi-resonant topology High efficiency Pin arrangement High power factor (IEC61000-3-2 class-C support) Universal input Protections OCP is Pulse-by-pulse OLP, OVP and TSD are latched shutdown Typical application circuit (PWM type) R1 R2 6 ISEN D3 D4 D/ST 8 VAC D1 COMP LC5550LD 4 Contro1 5 Symbol 1 S/GND 2 VCC 3 OCP 4 COMP 5 NF 6 ISENSE 7 ― 8 D/ST D6 U1 NF Pin No. Function MOSFET source and GND pin Supply voltage input and OVP signal input OCP, QR signal input and OVP signal input Feedback phase-compensation input No function 3 OCP/BD 2 1 VCC C3 S/GND C4 C5 R5 C6 Output current sensing voltage input C2 R3 D2 R4 T1 C1 LED C7 D5 LEDIC-SGE Feb. 17, 2016 Pin removed MOSFET drain pin and input of the startup current P.11 Class-C Support LED Driver Lineup (Flyback) Power factor Class-C support Off-line LED driver High power factor at low power state Isolated and non-isolated type LED bulb Series LC5540LF LC5540LD LC5560 VIN(MAX) 650V / 800V 650V / 800V 650V LEDIC-SGE Feb. 17, 2016 Package TO-220F DIP8 DIP8 Street light Ceiling light Down light Back to contents LED fluorescent lamp Application Feature Ceiling light Street light ・Isolated type Down light LED fluorescent lamp ・Isolated type LED bulb Down light LED fluorescent lamp ・Non-isolated type ・Dimming Page P.13 P.14 P.15 P.12 Input Electrolytic Capacitorless, IEC61000-3-2 Class-C Support High Efficiency Isolated LED Driver IC LC5540LF Series TO-220F-7L Back to Lineup Lineup Part Number Input electrolytic capacitorless Quasi-resonant topology High efficiency, low noise High power factor (IEC61000-3-2 class-C support) at light load Protections OCP is pulse-by-pulse OLP, OVP and TSD are latched shutdown Typical application circuit LEDIC-SGE Feb. 17, 2016 MOSFET VDSS RDS(ON) PWM freq. LC5546LF 40kHz LC5547LF 40kHz LC5549LF 40kHz 650V 800V POUT AC230V Universal 1.9Ω 60W 40W 1.1Ω 80W 55W 1.7Ω 60W 40W Pin arrangement Pin No. Symbol 1 D/ST 2 S/GND 3 VCC 4 OCP 5 FB 6 NC MOSFET drain pin and input of the startup current MOSFET source and GND pin Supply voltage input and OVP signal input OCP, QR signal input and OVP signal input Feedback signal input and OLP signal input ― 7 OVP OVP signal input Function P.13 Input Electrolytic Capacitorless, IEC61000-3-2 Class-C Support High Efficiency Isolated LED Driver IC LC5540LD Series DIP8 Back to Lineup Lineup Part Number Input electrolytic capacitorless Quasi-resonant topology High efficiency, low noise LC5545LD 72kHz LC5546LD 60kHz LC5548LD 72kHz High power factor (IEC61000-3-2 class-C support) at light load Protections OCP is pulse-by-pulse OLP, OVP and TSD are latched shutdown MOSFET VDSS RDS(ON) PWM freq. 650V 800V 3.95Ω 13W 10W 1.9Ω 20W 16W 3.5Ω 13W 10W Pin arrangement Pin No. Symbol 1 S/GND 2 VCC 3 OCP 4 FB 5 NF 6 OVP 7 ― 8 D/ST Typical application circuit LEDIC-SGE Feb. 17, 2016 POUT AC230V Universal Function MOSFET source and GND pin Supply voltage input and OVP signal input OCP, QR signal input and OVP signal input Feedback signal input and OLP signal input No function OVP signal input Pin removed MOSFET drain pin and input of the startup current P.14 Input Electrolytic Capacitorless, IEC61000-3-2 Class-C Support High Efficiency Non-Isolated LED Driver IC LC5560LD Series DIP8 Back to Lineup Lineup Part Number LC5565LD Buck / Buck-boost / Flyback Input electrolytic capacitorless LC5566LD Quasi-resonant topology High efficiency, low noise High power factor (IEC61000-3-2 class-C support) at light load Dimming Function Protections OCP is pulse-by-pulse OLP, OVP and TSD are latched shutdown Typical application circuit (Flyback type) LEDIC-SGE Feb. 17, 2016 PWM freq. MOSFET POUT VDSS(min.) RDS(ON)(max.) AC230V Universal 72 kHz 650V 60 kHz 3.95 Ω 13 W 10 W 1.9 Ω 20 W 16 W Pin arrangement Pin No. 1 Symbol 2 VCC 3 OCP 4 COMP 5 VREF 6 ISENSE 7 ― 8 D/ST S/GND Function MOSFET source and GND pin Supply voltage input and OVP signal input OCP, QR signal input and OVP signal input Feedback phase-compensation input Dimming control signal input Output current sensing voltage input Pin removed MOSFET drain pin and input of the startup current P.15 DC/DC LED Driver Lineup For smart LED lighting application For LED back light application Individual channels control Series LC101N (Balancer) LC5710S Back to contents Back Light VIN(MAX) IO VLED(MAX) 1ch 35V 150mA 35 58V 1.0A Package 1ch 50V 2.0A 1ch ― ― 2ch LEDIC-SGE Feb. 17, 2016 ― ― Buck / buck-boost /boost PWM dimming Built-in power MOSFET P.18 Buck / buck-boost /boost PWM dimming Built-in power MOSFET P.19 Boost circuit High contrast proportion PWM dimming Analog dimming P.20 Boost circuit High contrast proportion PWM dimming Analog dimming P.21 58V 50V ― ― Page SOP8 SOP18 BL0200 Feature Balancer SOIC14 BL0100 Street light DFN8 SOIC8(Exposed) LC5720S Ceiling light Display Output 1ch MR16 P.17 P.16 ILED = 150 mA LED Current Balancer IC LC101N Back to Lineup Lineup DFN8 Part Number ILED(MAX) VLED MAX VIN VFB LC101N 15mA to 150mA 35V 2.4 to 35V 200mV±3% Current balancer between LED strings DFN8 small package Power dissipation PD = 1.3W Capacitorless of Input and output Difference between input and output voltage ΔVDIF = 350 mV (max.) Protections - OCP - TSD activates at 130°C (without thermal hysteresis) Typical application circuit Pin arrangement Pin No. 1 2,3 4 Symbol 5 FB 6,7 NC 8 LO IN NC LED Function Input Output LED current detection signal input (positive side) LED current detection signal input (negative side) LEDIC-SGE Feb. 17, 2016 P.17 ILED = 1.0 A VIN = 5 V to 58 V LED Driver for Buck, Buck-boost and Boost LED Driver LC5710S Back to Lineup SOP8 Part Number ILED(MAX) VIN MOSFET RDS(ON) fOSC LC5710S 1.0A 5 ~ 58V 0.550Ω(typ.) 100k ~ 500kHz For buck, boost and buck-boost circuit ILED = 1.0 A (max.) fOSC = 100 kHz to 500 kHz (adjustable) VCS = 100 mV ± 3 % High accuracy dimming control PWM : 20 kHz(max.) DC: 0.2 V to 2 V Protections UVLO, OCP, TSD, LED OVP, LED Open and LED Cross Connection Typical application circuit Boost LEDIC-SGE Feb. 17, 2016 Pin arrangement Pin No. 1 2 3 4 5 6 7 8 Buck-boost LC5710S COMP RT GND SW VIN CSP CSN DIM Functions Phase compensation Frequency adjust Ground Switch output DC input LED current sense (+) LED current sense (-) Dimming signal input Buck P.18 ILED = 2.0 A VIN = 8.5 V to 50 V LED Driver for Buck, Buck-boost and Boost LED Driver LC5720S Back to Lineup SOIC8(Exposed) Part Number ILED(MAX) VIN MOSFET RDS(ON) fOSC LC5720S 2.0A 8.5 ~ 50V 0.215Ω(typ.) 500kHz For buck, boost and buck-boost circuit ILED = 2.0 A fOSC = 500 kHz VCS = 100 mV±5 % High efficiency η > 90 %(typ.) PWM dimming : 20 kHz(max.) Protections OCP is pulse-by-pulse OVP and TSD are auto restart Pin arrangement Pin No. 1 2 3 4 5 6 7 8 Symbol COMP NC GND SW VIN CSP CSN DIM Function Phase compensation pin ― Ground pin Output pin DC input pin Reference input pin of current detection Negative input pin of current detection PWM dimming signal input pin Typical application circuit Input voltage 5 CIN VIN CSP 6 RCS LC5700S CSN COUT 7 ROVP 8 LED DS DIM DZOVP 1 COMP CS CP RS GND 3 SW Output voltage 4 L Buck LEDIC-SGE Feb. 17, 2016 Buck-boost Boost P.19 1ch Boost Convertor LED Back Light Driver BL0100A Series SOIC14 Features and Benefits Back to Lineup Lineup UDA: Under development Products Error Signal Output Enable Function VREG Accuracy LED open/short protection and OVP operations BL0100A Yes − ±2% Auto restart UD BL0102A Yes Yes ± 1.5 % Auto restart UD BL0104A Yes Yes ± 1.5 % Latched shutdown Boost DC/DC topology → Low power dissipation Individual control of boost circuits No requirement of VF screening Typical application circuit Boost convertor • Current mode type PWM control • Internally-fixed PWM frequency is 200 kHz • Maximum on duty is 90 % BL0100A VCC VREF DRV OC PWM ER LED current control • PWM dimming • Analog dimming • High accuracy output current • Error signal output • IC Enable Function (BL0102A and BL0104A) OVP FSET REG COMP SW IFB GND TC_BL0100A_1_R1 Protections • OCP of boost circuit and LED output are pulse-by-pulse • OVP and Output Open/Short Protection are latched shut down or auto restart • TSD is auto restart LEDIC-SGE Feb. 17, 2016 P.20 2ch Boost Convertor LED Back Light Driver BL0200 Series SOP18 Back to Lineup Lineup UD Part Number Boost MOSFET fOSC BL0200B BL0200C BL0202B BL0202C 100 kHz 200 kHz 100 kHz 200 kHz UD Features and Benefits Boost DC/DC topology → Low power dissipation Individual control of boost circuits No requirement of VF screening Error signal output Enable Function VREG Accuracy VCC(ON) (typ.) VCC(OFF) (typ.) Yes 〓 ±2% 9.6 V 9.1 V 〓 Yes ± 1.5 % 9.6 V 8.6 V Typical application circuit BL0202B/C VCC Boost convertor • Current mode type PWM control • Internally-fixed PWM frequency is 200 kHz • Maximum on duty is 90 % LED current control • Separately controlled PWM dimming • Analog dimming • High accuracy output current • Error signal output (BL0200Ba and BL0200C) • IC Enable Function (BL0202B and BL0202C) Protections • OCP of boost circuit and LED output are pulse-by-pulse • OVP, TSD and Output Open/Short Protection are auto restart LEDIC-SGE Feb. 17, 2016 : Under development VREF DRV1 OC1 PWM1 PWM2 EN SW1 IFB1 Individual control DRV2 OC2 REG COMP1 COMP2 GND OVP SW2 IFB2 TC_BL0202_1_R1 P.21 IC Lineup for High Power and Smart LED Lighting POUT ≥ 80 W For Using Microcomputer Ceiling light with microcomputer AC Back to contents Main power supply PFC →P.15 PFC IC DC/DC LED Driver LLC IC Down light PWM dimming Auxiliary power supply Street lump PWM IC /LC201S Dimming Microcomputer Application Feature Products CRM control, CCM control DCM control (Interleaved) PFC ICs Main convertor Low noise LLC control ICs Auxiliary power supply PWM control Low power consumption at no load < 25mW Flyback type Buck type (non-isolated) PWM control ICs Built-in linear regulator For non-isolated circuit LC201S P.23 8 bit MCU High Performance DSP High Resolution PWM MD660x Series P.24 LEDIC-SGE Feb. 17, 2016 Illuminance/ human body sensor Page PFC Microcomputer LED See the Selection Guide of PFC and AC/DC convertor P.22 VO=5V Off-Line Linear Regulator LC201S Back to Lineup LC201S output voltage SOP8 Output pin OUT1 OUT2 LC201S is a power supply IC for a microcontroller. It is a linear regulator with startup circuit. SL pin VOUT Open 9V 1.5 mA GND 20 V 1.5 mA ― 5V 10 mA* Typical application circuit Low component count (built-in startup circuit) Either ST pin or auxiliary winding can be used for power supply of control circuit. *with auxiliary winding Without auxiliary winding BR1 VAC Power consumption of the startup circuit is zero. (with auxiliary winding) C1 8 7 6 5 ST NC NC OUT1 U1 LC201S UVLO Function: If OUT1 pin voltage decreases, OUT2 pin fixed to Low state C2 GND SL SINK OUT2 1 2 3 4 Pin assignment R1 Pin No. Symbol 1 GND 2 SL 3 SINK If OUT1 pin voltage is decreased, SINK pin flows sink current. Connect with OUT2 pin. 4 OUT2 Output of 5 V (Typ.) 5 OUT1 Output of 9 V (Typ.) or 20 V (Typ.) . When auxiliary winding is connected to OUT1 pin, OUT1 pin is power supply of the control circuit. 6, 7 (NC) No function. This pin is Open 8 ST IOUT(max) Microcontroller C3 Function Ground With auxiliary winding Main power supply circuit for Lamp Lamp Switch of OUT1 pin voltage BR1 VAC D1 8 C1 ST 7 6 5 NC NC OUT1 U1 LC201S C2 Startup current input. When auxiliary winding is not connected to OUT1 pin, ST pin is power supply of the control circuit. LEDIC-SGE Feb. 17, 2016 GND SL SINK OUT2 1 2 3 4 R1 Microcontroller C3 P.23 Rich Analog, High Performance DSP and High Resolution PWM 8 bit MCU for Digital Controlled Power Supply System and High Speed Control MD660x Series Back to Lineup MD660x is 8 bit MCU (Micro Controller Unit) for the power control application such as digital control power supply system. Input A/D 【 Block Diagram 】 Unity/Gain/Amp Insert :Analog section Input A/D High-speed 10-bit Successive approximation Type A/D converter Non-inverting Amplifier Circuit 〒 Comparator Op-amp Comparator Input Interrupt events A/D D/A High-precision 12-bit Successive approximation Type A/D converter MUL ALU TinyDSP (for 1unit) SFT ACC (36bit) DMA Capability Between Peripherals (DSAC) Automatic data transfer among the Self-Running Feedback Controls registers of the built-in peripheral auto functions. Also, automatic data ADC auto PWM auto DSP transfer among the A/D converter, ADC the Tiny DSP, and the PWM. Feedback control can be applied System Tasks without the CPU, so that the CPU CPU will focus on system processing such as anomaly detection or communications processing. System Support Functions FLASH Memory, Timer, Serial Communications, Oscillators, Reset Circuits, etc. LEDIC-SGE Feb. 17, 2016 Wiring among analog blocks are programmable. All I/O signals of the analog block can be wired with external pins. FLASH 8-bit 8051CPU ・ Pipeline control ・1-Wire debug I/F ・256 byte RAM + - 8051 CPU DSAC Automatic data transfer among peripheral registers Tiny DSP(for digital filtering etc.) ・ Multiplication, product-sum operation, shifting, and high-speed division ・ 16-bit fixed point arithmetic Tiny DSP + - + - + - + - + - + - + - + - + - High-speed Comparator High-precision 12-bit SAR ADC Built-in FLASH Memory Register file DIV General purpose Op-amp Highspeed 10-bit ADC Highspeed 10-bit ADC :Digital section General purpose operating amplifier ・ Gain switching between standalone and unity GPIO Voltage Reference Temperature Sensor Built-in RAM High Performance DSP Operations MD660x has 8 bit CPU and two 16 bit Tiny DSP. CPU controls systems, Tiny DSP does calculations. Thus, parallel processing achieves. Analog GPIO(Analog/Digital) Digital GPIO(5V tolerant) Voltage DAC RAM Tiny DSP IRC/POR Timer HiRes PWM SPI, I2C UART GPIO Direct ADC Input GPIO Rich Analog Component Interconnections among analog components and external pins are configurable by programmable analog network. MD660x has A/D converter, analog comparators, general purpose OPAMPs. High-speed analog comparator D/A converter Internal Reference Oscillator Power On Reset Low Voltage Detector Low power consumption mode GPIO General-purpose 16-bit Timer High-resolution PWM ・Dead time ・Duty Cut/Cycle Cut Serial communications ・SPI, I2C, UART System control Interrupt control Development Support Software ・IDE_MS660x : Program Development Environment ・SKDSP : Digital Filters for Tiny DSP Program generation for the phase compensator Development Support Hardware ・OCD I/F board (Interface for writing flash) ・CHEWING GUM (Evaluation board) CHEWING GUM P.24 Rich Analog, High Performance DSP and High Resolution PWM 8 bit MCU for Digital Controlled Power Supply System and High Speed Control MD660x Series Package LQFP-44 Product Specification LQFP-64 QFN-40 Parameter Common 10×10 (0.8pitch) 10×10 (0.5pitch) 6×6 (0.5pitch) LEDIC-SGE Feb. 17, 2016 Power Consumption(Typ.) MD6601FLV MD6602FNVL* MD6602FNV MD6602FPV QFN-40 LQFP-44 QFN-40 LQFP-64 Digital : 150mW Analog : 20mW Digital : 165mW Analog : 20mW 10 bit A/D Converter 2 units, 4MSPS / unit, Dual Sample-hold mode 12 bit A/D Converter 1 unit, 1MSPS / unit 12 bit voltage output × 1ch 10 bit voltage output × 4 ch Analog Comparator 4 units 6 units General Purpose OPAMP 2 units 4 units D/A Converter Voltage Reference Temperature Sensor 8 bit 8051CPU FLASH Memory Internal RAM Tiny DSP High Resolution PWM Digital Function Operation Frequency 50MHz(max.) Analog Function Analog interconnection : User configurable High speed analog comparator General OPAMP : Stand-alone, unity gain selectable Digital Function Digital GPIO : 5V tolerant FLASH memory with Cache Function and Security Function One wire Debug Interface The reading and writing of internal resource, the control of execution, the break of program execution and the writing of FLASH can be processed by one wire debug line. Interrupt Controller Interrupt priority of 2 level, Independent vectors for each interrupt source, all GPIO can be set interrupt input. Analog Function Power Supply Voltage Digital DVCC:3.3V Analog AVCC:3.3V Unit : mm Package * Packing specifications is reel. The others are tray. MD6601FNVL* MD6601FNV DSAC 16 bit Timer SPI / I2C / UART GPIO 1.2 V output, middle point analog ground The voltage according to temperature is output and is read by A/D converter. 8051/8052 instruction compatible, execution cycle : 1 cycle (min.), 3 cycle (avg.) 16 KB 32 KB 1 KB ( + fast RAM(256B) directly connected to CPU) 2 unit, 16 bit (MUL, MAC, DIV) 2 unit, 16 bit ( Min./Max. saturation, constant register) 2 phase PWM × 4 pairs, 1ns resolution (for duty and cycle), Duty Cut, Cycle Cut 8ch 16ch 2 units, 16 bit counter Generates Interrupts 4 units, 16 bit counter Output Compare / Input Capture Each 1 unit Each 1 unit (Individual configurable) Digital × 12 Analog × 16 Digital × 12 Analog × 16 Digital × 26 Analog × 20 WDT 1 unit (Watch Dog Timer to generate internal reset or interrupt request) LVD Low voltage detection POR Power on reset circuit IRC Internal reference clock generator (10MHz) PLL Frequency multiplication by 4 of external (crystal) clock, IRC clock (50 MHz max.) P.25 IMPORTANT NOTES 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. Application examples, operation examples and recommended 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, life, body, property or any other rights of Sanken or any third party which may result from its use. Unless otherwise agreed in writing by Sanken, Sanken makes no warranties of any kind, whether express or implied, as to the products, including product merchantability, and fitness for a particular purpose and special environment, and the information, including its accuracy, usefulness, and reliability, included in this document. 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. 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.). 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. 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. 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. LEDIC-SGE Feb. 17, 2016 P.26