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| Preliminary Datasheet IRMCS3043 Sensorless Motor Drive Platform with Integrated PFC for Appliance Based on iMOTIONTM Chipset Features Product Summary TM IRMCF343 - iMOTION digital control IC-based system TM MCE (Motion Control Engine) - Hardware based computation engine for high efficiency sinusoidal sensorless control of Permanent Magnet motors Integrated digital power factor correction (PFC) Supports both interior and surface permanent magnet motor sensorless control Single shunt current feedback reconstruction No external current or voltage sensing OP amp circuit required 230V/1700W continuous power with Trench IGBT for PFC and Integrated Power Module for inverter Harmonics complying with EN61000-3-2 Class-A Loss minimization Space Vector PWM Two-channel analog output (PWM) Embedded 8-bit high speed microcontroller (8051) for flexible I/O and man-machine control JTAG programming port for emulation/debugger 2 I C serial interface to EEPROM MCEDesigner TM Continuous input power Continuous output current Maximum overload output current Maximum Internal clock (SYSCLK) Sensorless control computation time RAM loaded from external EEPROM Data RAM A/D input channels A/D converter resolution A/D converter conversion speed 8051 instruction execution speed Analog output (PWM) resolution RS232C baud rate (typ.) * Upgradeable to higher current with larger heat sink ** Changeable by modifying the hardware. 1700W* 6.0 Arms* 20 Apeak** 128 MHz 11 sec typ. 48 Kbytes 8 Kbytes 5 12 bits 2 sec 2 SYSCLK 8 bits 57.6 Kbps tool for easy operation Flexible drive configuration RS232C interface Over-current and over-voltage/under-voltage protection EMI filter and switch-mode power supply included Description IRMCS3043 is a reference design platform for IRMCF343, a high performance RAM-based motion control IC designed primarily for appliance applications, up to 1.7kW continuous input power. It's mainly aimed to achieve simple, low cost and high performance solutions for advanced appliance motor control. It consists of an active PFC frond-end and an inverter stage, both of which are controlled by the IRMCF343 digital IC simultaneously. The power stage contains a Trench IGBT (IRGP4063DPbF) for the PFC and an integrated power module (IRAMX16UP60A-2) for the inverter, which are part of TM TM iMOTION chipset. Users can readily evaluate high performance sensorless control with MCEDesigner software without spending development effort usually required in the traditional DSP or microcontroller based system. The complete B/Ms, schematics and layout are provided so that the user can adapt and tailor the design per application needs. This document is the property of International Rectifier and may not be copied or distributed without expressed consent. IRMCS3043 Table of Contents Introduction ........................................................................................................................................................................ 3 1.1 Overview ..................................................................................................................................................................... 3 1.2 Safety Precautions ...................................................................................................................................................... 4 1.3 Debris When Unpacking ............................................................................................................................................ 6 2 Hardware Description ........................................................................................................................................................ 7 2.1 PCB.............................................................................................................................................................................. 7 2.2 Isolation Boundary ..................................................................................................................................................... 7 2.3 IRMCF343 .................................................................................................................................................................. 8 2.3.1 Power.................................................................................................................................................................... 8 2.3.2 Crystal .................................................................................................................................................................. 8 2.3.3 Reset Circuit ........................................................................................................................................................ 8 2.3.4 EEPROM ............................................................................................................................................................. 8 2.3.5 Digital I/O ............................................................................................................................................................ 8 2.3.6 Analog Output ..................................................................................................................................................... 8 2.3.7 Motor Single-Shunt Current Feedback .............................................................................................................. 8 2.3.8 PFC Current Feedback ........................................................................................................................................ 8 2.3.9 AC Input Voltage Feedback ............................................................................................................................... 8 2.3.10 DC Bus Voltage Feedback................................................................................................................................ 8 2.4 Input Diode Bridge Rectifier ..................................................................................................................................... 8 2.5 PFC IGBT and Diode ................................................................................................................................................. 9 2.6 PFC Inductor ............................................................................................................................................................... 9 2.7 IRAM........................................................................................................................................................................... 9 2.8 Power Supply .............................................................................................................................................................. 9 2.9 EMI Filter.................................................................................................................................................................... 9 2.10 DC Bus Capacitors ................................................................................................................................................... 9 3 Specifications ................................................................................................................................................................... 10 1 List of Figures Figure 1. Figure 2. IRMCS3043 System Block Diagram ................................................................................................................... 3 Top View of IRMCS3043 ..................................................................................................................................... 7 List of Tables Table 1. IRMCS3043 Electrical Specification................................................................................................................... 10 This document is the property of International Rectifier and may not be copied or distributed without expressed consent. 2 IRMCS3043 1 Introduction 1.1 Overview IRMCS3043 is a reference design platform for complete inverter-controlled appliance motor drive applications based on iMOTION TM chipset, up to 1.7kW continuous input power. By using the IRMCF343 digital control IC, it provides a one-chip solution that simultaneously controls PFC frond-end circuit and one permanent magnetic (PM) AC motor (sinusoidal back EMF) without requiring motor position sensors. IRMCF343 is International Rectifier's new integrated circuit device primarily designed as a one-chip solution for sensorless permanent magnet motor control with integrated PFC in appliance applications. Unlike a traditional microcontroller or DSP, IRMCF343 provides a built-in closed-loop sensorless control algorithm using a unique Motion Control Engine (MCETM) for surface/interior permanent magnet motors with sinusoidal back EMF. IRMCF343 also employs a unique single shunt current reconstruction circuit to eliminate additional analog/digital circuitry and enables a direct shunt resistor interface to the IC. The MCETM consists of a collection of control elements, motion peripherals, a dedicated motion control sequencer and dual port RAM to map internal signal nodes. Motion control programming is achieved by using a dedicated graphical compiler integrated into the MATLAB/SimulinkTM development environment. Sequencing, user interface, host communication, and upper layer control tasks can be implemented in the 8051 high-speed 8-bit microcontroller. The 8051 microcontroller is equipped with a JTAG port to facilitate emulation and debugging tools. Using the MCETM, IRMCF343 also achieves simultaneous digital PFC control of the frond-end circuit that provides a regulated DC bus voltage to the inverter. Figure 1 shows the IRMCS3043 system block diagram. In this platform, the PFC topology is implemented as the conventional boost PFC; however, the IRMCF343 IC can also control the bridgeless PFC topology. Please contact the iMOTIONTM team for support if you need to control the bridgeless PFC using IRMCF343. The IRMCS3043 power stage contains a Trench IGBT (IRGP4063DPbF) for the PFC and an integrated power module (IRAMX16UP60A-2) for the inverter. The Trench IGBTs, part of IR's iMOTIONTM integrated design platform, have lower collector-to-emitter saturation voltage (VCE(ON)) and total switching energy (ETS) than punch-through (PT) and non-punch-through (NPT) type IGBTs. The combination of low VCE(ON) and ETS result in reduced power dissipation and higher power density. IRAMX16UP60A-2 is an integrated power module developed and optimized for appliance motor control. Host communication Integrated Power Module In te g ra te d P o w e r M o d u le Appliance Inverter with PFC Passive EMI Filter Galvanic isolation PFC Gate Drive IRMCF343 Multiple Output Power Supply 1.8V IR2136 Motor (PMSM or IM) 3.3V EEPROM Digial I/O Analog Input 2 18 2 Figure 1. IRMCS3043 System Block Diagram This document is the property of International Rectifier and may not be copied or distributed without expressed consent. 3 IRMCS3043 1.2 Safety Precautions In addition to the precautions listed throughout this manual, please read and understand the following statements regarding hazards associated with development system. ! ! ! ! ATTENTION: The ground potential of the IRMCS3043 system is biased to a negative DC bus voltage potential. When measuring voltage waveform by oscilloscope, the scope ground needs to be isolated. Failure to do so may result in personal injury or death. Darkened display LEDs is not an indication that capacitors have discharged to safe voltage levels. ATTENTION: IRMCS3043 system contains dc bus capacitors which take time to discharge after removal of main supply. Before working on drive system, wait three minutes for capacitors to discharge to safe voltage levels. Failure to do so may result in personal injury or death. Darkened display LED is not an indication that capacitors have discharged to safe voltage levels. ATTENTION: Only personnel familiar with the drive and associated machinery should plan or implement the installation, start-up, and subsequent maintenance of the system. Failure to comply may result in personal injury and/or equipment damage. ATTENTION: The surface temperatures of the drive may become hot, which may cause injury. This document is the property of International Rectifier and may not be copied or distributed without expressed consent. 4 IRMCS3043 ! ATTENTION: IRMCS3043 system contains ESD (Electrostatic Discharge) sensitive parts and assemblies. Static control precautions are required when installing, testing, servicing or repairing this assembly. Component damage may result if ESD control procedures are not followed. If you are not familiar with static control procedures, reference applicable ESD protection handbook and guideline. ! ATTENTION: An incorrectly applied or installed drive can result in component damage or reduction in product life. Wiring or application errors such as undersizing the motor, supplying an incorrect or inadequate AC supply, or excessive ambient temperatures may result in system malfunction. ! ! ATTENTION: Remove and lock out power from the drive before you disconnect or reconnect wires or perform service. Wait three minutes after removing power to discharge the bus voltage. Do not attempt to service the drive until bus voltage has discharged to zero. Failure to do so may result in bodily injury or death. ATTENTION: Do not connect power factor correction inductors to drive output terminals U, V, and W. Failure to do so may result in equipment damage or bodily injury. This document is the property of International Rectifier and may not be copied or distributed without expressed consent. 5 IRMCS3043 1.3 Debris When Unpacking IRMCS3043 system is shipped with packing materials that need to be removed prior to installation. ATTENTION: Failure to remove all debris and packing materials which are unnecessary for system installation may result in overheating or abnormal operating condition. ! This document is the property of International Rectifier and may not be copied or distributed without expressed consent. 6 IRMCS3043 2 Hardware Description A top view of IRMCS3043 is shown in Figure 2. Figure 2. Top View of IRMCS3043 ! 2.1 2.2 PCB WARNING: Except the RS232 connector, all the circuits are directly biased to the negative DC bus of the power stage, and J7 JTAG, J6 D/A output and J8 digital I/O connectors are not isolated from the power ground. If an FS2 debugger or oscilloscope is needed for debugging or measurement, ensure it is isolated from the power ground. Otherwise, severe damage will occur to the PCB and /or the equipment. The PCB has two electrical layers and its size is 6.5 x 8.0 inches. Isolation Boundary Note that there are two different grounds on this system. The RS232 connector is isolated by opto couplers so that users can connect a computer without isolating it. However, users should keep in mind that most parts of the hardware This document is the property of International Rectifier and may not be copied or distributed without expressed consent. 7 IRMCS3043 have negative DC bus ground and it is necessary to isolate the scope when waveforms are measured and/or to isolate the FS2 debugger when debugging is conducted. 2.3 IRMCF343 2.3.1 Power IRMCF343 requires 3.3V and 1.8V. VDD1 is 3.3V used for I/O and VDD2 is 1.8V for digital logic. AVDD is 1.8V for analog and PLLVDD is for PLL. Only one source of 1.8V is shared in IRMCS3043 system. Typical current value for 1.8V is less than 100 mA. 2.3.2 Crystal A 4 MHz crystal is used to generate the system clock. The actual system frequency is adjustable by changing the Phase Locked Loop configuration through Special Function Registers. For more information regarding clock, please refer to the IRMCF34x and IRMCF37x User's Guide. 2.3.3 Reset Circuit IRMCF343 doesn't require external RC circuit for reset. The reset switch is used when the JTAG debugger is started. For more information regarding reset, please refer to the IRMCF34x and IRMCF37x User's Guide. 2.3.4 EEPROM Boot load takes place at power-up to load 8051 code and MCE code from an external EEPROM to internal RAM of IRMCF343. EEPROM can be written using the MCEDesigner tool. 2.3.5 Digital I/O Most of the digital I/O's are connected to header J8 for the user's convenience. 2.3.6 Analog Output Analog D/A output channels are connected to header J6 for ease of use. 2.3.7 Motor Single-Shunt Current Feedback IRMCF343 contains an Operational Amplifier for the single shunt motor current reconstruction circuit. Resistors and capacitors for the amplifier circuit are placed very close to the pins. Note that, to provide better current feedback, there is a separate trace from the shunt resistor instead of sharing a plane with negative DC bus ground. 2.3.8 PFC Current Feedback IRMCF343 contains an Operational Amplifier for PFC current feedback. The PFC current feedback signal is obtained through a shunt resistor that is in series with the PFC inductor and located at the negative DC bus side. Resistors and capacitors for the amplifier circuit are placed very close to the pins. Note that, to provide better current feedback, there is a separate trace from the shunt resistor instead of sharing a plain with negative DC bus ground. 2.3.9 AC Input Voltage Feedback IRMCF343 contains an Operational Amplifier for AC input voltage feedback which is mainly used for PFC control. The AC input voltage signal is obtained through a proprietary differential amplifier circuit and control logic that is embedded inside of the IRMCF343 IC, together with a few external resistors and capacitors. 2.3.10 DC Bus Voltage Feedback The DC bus voltage feedback is used in both motor control and PFC control. This is implemented through a voltage divider circuit, and the scaled-down analog signal is fed into an ADC input pin (AIN0) of IRMCF343. 2.4 Input Diode Bridge Rectifier One piece of IR25XB08H diode bridge rectifier is mounted on a heat sink under the board. This document is the property of International Rectifier and may not be copied or distributed without expressed consent. 8 IRMCS3043 2.5 PFC IGBT and Diode At the PFC frond-end, one piece of IRGP4063DPbF trench IGBT and one piece of 30ETH06 hyperfast diode are mounted on the same heat sink under the board. A 15-m shunt resistor is in series with the inductor current flowing path at the negative DC bus side. The shunt provides PFC current feedback as well as over-current protection (OCP). The voltage across the shunts is fed to a comparator circuit. The comparator initiates the over-current shutdown (PGatekill), and the PGatekill signal is fed to IRMCF343 IC. The OCP is about 20A peak. For more information regarding trench IGBTs and hyperfast diode, please refer to their datasheets. 2.6 PFC Inductor One piece of PFC inductor is provided separately from the PCB, and should be connected to the J2 connector. The inductor shown in Figure 2 is 1.5mH at 15A Idc, with 10Arms current rating. You can use your own inductor for the evaluation and test. The choice of inductor involves trade-offs in PFC control performance (current ripple, harmonics and power factor), switching frequency, cost, space, power loss and EMI noise. The PFC switching frequency for the IRMCS3043 is 30kHz, and the typical recommended reasonable inductance range is about 1mH to 1.5mH. 2.7 IRAM At the inverter side, one piece of IRAMX16UP60A-2 is mounted on the same heat sink under the board. There are two 20-m shunt resistors (in parallel) that are inserted into the negative DC bus and external to the IRAM. These shunts provide motor current feedback as well as over-current protection. The voltage across the shunts is fed to a comparator circuit. The comparator initiates the over-current shutdown (CGatekill), and the CGatekill signal is fed to both the IRAM and IRMCF343 IC. With the 10-m shunt resistance and threshold set up of the comparator, the OCP current is about 20A peak. For more information regarding IRAM, please refer to IRAM datasheet. 2.8 Power Supply The switched-mode power supply (SMPS) operates at about 80 KHz and generates 15V(VCC), 5V and 3.3V. A 1.8V DC voltage is generated from 3.3V by a linear regulator IRU1208. All these voltages are biased to the negative DC bus. In addition, this SMPS also generates an isolated 12V which is used for the RS232 communication. 2.9 EMI Filter The passive EMI filter on the board consists of two 1-F X-caps, two 4.7-nF Y-caps and a 4-mH common-mode inductor. 2.10 DC Bus Capacitors Three pieces of 470-F, 450 V, 85C electrolytic capacitors are used as the DC bus capacitors. This document is the property of International Rectifier and may not be copied or distributed without expressed consent. 9 IRMCS3043 3 Specifications TC = 25C unless specified Parameters Input Voltage Frequency Input current Watts Values 220V-230Vrms, -20%, +10% 50/60 Hz 8A rms @nominal output 1700W continuous power Conditions TA=40C, RthSA=0.36 C/W Vin=230V AC, fPWM_PFC =30kHz, fPWM_inverter =6kHz, fO=60Hz, TA=40C, RthSA=0.36 C/W Input power > 1500W RthSA limits TC to 10C during overload Typical 57.6 Kbps, single ended Interface with FS2 debugger (NOT isolated from the negative DC bus) 8051 software needs modification to use it. DC bus voltage, single-shunt motor current, AC input voltage, AC input current, AIN1 Should not exceed 400V for > 30 sec Configurable by PFC Input line impedance Input power factor Harmonic current Output Current Host Interface (RS232C) TXD, RXD JTAG interface TMS, TDI, TCK, TDO D/A 8- bit 2 Channel A/D 12-bit DC bus voltage Maximum DC bus voltage Nominal DC bus voltage PFC Current Feedback Current sensing device Resolution Latency Motor Current Feedback Current sensing device Resolution Latency Protection PFC current trip level Motor current trip level Critical over voltage trip Over voltage trip Under voltage trip Power Devices Trench IGBT for PFC IPM for inverter System Environment Ambient temperature 4%8% recommended >99% Comply with EN61000-3-2 Class-A 6 Arms nominal, 10 Arms Overload 10V 3.3V 0-3.3V output 0-1.2V 400V 370V Shunt resistor 12-bit 1 PWM cycle Single shunt reconstruction 12-bit 1 PWM cycle 20A peak, 10% 20A peak, 10% 430V 410V 120V IRGP4063DPbF IRAMX16UP60A-2 0 to 40C Detection from shunt on inductor current return path Detection from shunt on negative DC bus Re-scalable Re-scalable Re-scalable 95% RH max. (Non-condensing) Table 1. IRMCS3043 Electrical Specification This document is the property of International Rectifier and may not be copied or distributed without expressed consent. 10 IRMCS3043 IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, Tel: (310) 252-7105 http://www.irf.com Data and specifications subject to change without notice. Sales Offices, Agents and Distributors in Major Cities Throughout the World. This document is the property of International Rectifier and may not be copied or distributed without expressed consent. 11 |
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