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Data Sheet No. PD60336
IRMCK371
Sensorless Motor Control IC for Appliances
Features
MCE (Motion Control Engine) - Hardware based computation engine for high efficiency sinusoidal sensorless control of permanent magnet AC motor Support Induction motor sensorless FOC control Supports both interior and surface permanent magnet motors Built-in hardware peripheral for single shunt current feedback reconstruction No external current or voltage sensing operational amplifier required Three/two-phase Space Vector PWM Analog output (PWM) Embedded 8-bit high speed microcontroller (8051) for flexible I/O and man-machine control JTAG programming port for emulation/debugger Serial communication interface (UART) I2C/SPI serial interface Watchdog timer with independent analog clock Three general purpose timers/counters Two special timers: periodic timer, capture timer Internal `One-Time Programmable' (OTP) memory and internal RAM for final production usage Pin compatible with IRMCF371, RAM version 1.8V/3.3V CMOS
TM
Product Summary
Maximum crystal frequency Maximum internal clock (SYSCLK) frequency Maximum 8051 clock frequency Sensorless control computation time MCE
TM
60 MHz 128 MHz 33 MHz 11 sec typ 16 bit signed 64K bytes 8K bytes 2 sec 16 bits/ SYSCLK 4 12 bits 2 sec 2 SYSCLK 8 bits 57.6K bps 13 QFP48 -40C ~
computation data range
8051 OTP Program memory MCE program and Data RAM GateKill latency (digital filtered) PWM carrier frequency counter A/D input channels A/D converter resolution A/D converter conversion speed 8051 instruction execution speed Analog output (PWM) resolution UART baud rate (typ) Number of I/O (max) Package (lead-free) Operating temperature 85C
Description
IRMCK371 is a high performance OTP based motion control IC designed primarily for appliance applications. IRMCK371 is designed to achieve low cost and high performance control solutions for advanced inverterized appliance motor control. IRMCK371 contains two computation engines. One is Motion Control Engine (MCETM) for sensorless control of permanent magnet motors; the other is an 8-bit high-speed microcontroller (8051). Both computation engines are integrated into one monolithic chip. The MCETM contains a collection of control elements such as Proportional plus Integral, Vector rotator, Angle estimator, Multiply/Divide, Low loss SVPWM, Single Shunt IFB. The user can program a motion control algorithm by connecting these control elements using a graphic compiler. Key components of the sensorless control algorithms, such as the Angle Estimator, are provided as complete pre-defined control blocks implemented in hardware. A unique analog/digital circuit and algorithm to fully support single shunt current reconstruction is also provided. The 8051 microcontroller performs 2-cycle instruction execution (16MIPS at 33MHz). The MCE and 8051 microcontroller are connected via dual port RAM to process signal monitoring and command input. An advanced graphic compiler for the MCETM is seamlessly integrated into the MATLAB/Simulink environment, while third party JTAG based emulator tools are supported for 8051 developments. IRMCK371 comes with a small QFP48 pin lead-free package..
Rev 1.0
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IRMCK371
TABLE OF CONTENTS
1 2 3 4 Overview ....................................................................................................................................5 IRMCK371 Block Diagram and Main Functions.........................................................................6 Pinout.........................................................................................................................................8 Input/Output of IRMCK371.........................................................................................................9 4.1 8051 Peripheral Interface Group .......................................................................................10 4.2 Motion Peripheral Interface Group ....................................................................................10 4.3 Analog Interface Group .....................................................................................................11 4.4 Power Interface Group ......................................................................................................11 4.5 Test Interface Group .........................................................................................................11 5 Application Connections ..........................................................................................................12 6 DC Characteristics ...................................................................................................................13 6.1 Absolute Maximum Ratings...............................................................................................13 6.2 System Clock Frequency and Power Consumption ..........................................................13 6.3 Digital I/O DC Characteristics............................................................................................14 6.4 PLL and Oscillator DC characteristics...............................................................................14 6.5 Analog I/O DC Characteristics ..........................................................................................15 6.6 Under Voltage Lockout DC characteristics........................................................................15 6.7 AREF Characteristics ........................................................................................................15 7 AC Characteristics ...................................................................................................................16 7.1 PLL AC Characteristics .....................................................................................................16 7.2 Analog to Digital Converter AC Characteristics.................................................................17 7.3 Op Amp AC Characteristics ..............................................................................................17 7.4 SYNC to SVPWM and A/D Conversion AC Timing ...........................................................18 7.5 GATEKILL to SVPWM AC Timing .....................................................................................19 7.6 Interrupt AC Timing ...........................................................................................................19 7.7 I2C AC Timing....................................................................................................................20 7.8 SPI AC Timing...................................................................................................................21 7.8.1 SPI Write AC timing ....................................................................................................21 7.8.2 SPI Read AC Timing...................................................................................................22 7.9 UART AC Timing...............................................................................................................23 7.10 CAPTURE Input AC Timing ...........................................................................................24 7.11 JTAG AC Timing ............................................................................................................25 7.12 OTP Programming Timing .............................................................................................26 8 I/O Structure.............................................................................................................................27 9 Pin List .....................................................................................................................................30 10 Package Dimensions ............................................................................................................32 11 Part Marking Information ......................................................................................................33 12 Order Information .................................................................................................................33
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IRMCK371
TABLE OF FIGURES
Figure 1. Typical Application Block Diagram Using IRMCK371.....................................................5 Figure 2. IRMCK371 Internal Block Diagram.................................................................................6 Figure 3. IRMCK371 Pin Configuration..........................................................................................8 Figure 4. Input/Output of IRMCK371 .............................................................................................9 Figure 5. Application Connection of IRMCK371 ..........................................................................12 Figure 6. Clock Frequency vs. Power Consumption....................................................................13 Figure 7 Crystal oscillator circuit..................................................................................................16 Figure 8 Voltage droop of sample and hold .................................................................................17 Figure 9 SYNC to SVPWM and A/D Conversion AC Timing .......................................................18 Figure 10 GATEKILL to SVPWM AC Timing ...............................................................................19 Figure 11 Interrupt AC Timing .....................................................................................................19 Figure 12 I2C AC Timing ..............................................................................................................20 Figure 13 SPI write AC Timing.....................................................................................................21 Figure 14 SPI read AC Timing .....................................................................................................22 Figure 15 UART AC Timing .........................................................................................................23 Figure 16 CAPTURE Input AC Timing.........................................................................................24 Figure 17 JTAG AC Timing..........................................................................................................25 Figure 18 OTP Programming Timing ...........................................................................................26 Figure 19 All digital I/O except motor PWM output.........................................................................27 Figure 20 RESET, GATEKILL I/O ..................................................................................................27 Figure 21 Analog input ...................................................................................................................28 Figure 22 Analog operational amplifier output and AREF I/O structure.......................................28 Figure 23 VPP programming pin I/O structure ..........................................................................28 Figure 24 VSS, AVSS and PLLVSS pin structure ..........................................................................29 Figure 25 VDD1, VDD2, AVDD and PLLVDD pin structure ...........................................................29 Figure 26 XTAL0/XTAL1 pins structure .......................................................................................29
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IRMCK371
TABLE OF TABLES
Table 1. Table 2. Table 3. Table 4. Table 5. Table 6. Table 7. Table 8. Table 9. Table 10. Table 11. Table 12. Table 13. Table 14. Table 15. Table 16. Table 17. Table 18. Table 19. Table 20. Table 21. Absolute Maximum Ratings ...........................................................................................13 System Clock Frequency ...............................................................................................13 Digital I/O DC Characteristics ........................................................................................14 PLL DC Characteristics .................................................................................................14 Analog I/O DC Characteristics .......................................................................................15 UVcc DC Characteristics ...............................................................................................15 AREF DC Characteristics ..............................................................................................15 PLL AC Characteristics..................................................................................................16 A/D Converter AC Characteristics .................................................................................17 Current Sensing OP amp Amp AC Characteristics......................................................17 SYNC AC Characteristics ............................................................................................18 GATEKILL to SVPWM AC Timing ...............................................................................19 Interrupt AC Timing......................................................................................................19 I2C AC Timing ..............................................................................................................20 SPI Write AC Timing ....................................................................................................21 SPI Read AC Timing....................................................................................................22 UART AC Timing .........................................................................................................23 CAPTURE AC Timing ..................................................................................................24 JTAG AC Timing ..........................................................................................................25 OTP Programming Timing ...........................................................................................26 Pin List .........................................................................................................................31
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IRMCK371 1 Overview
IRMCK371 is a new International Rectifier integrated circuit device primarily designed as a onechip solution for complete inverter controlled appliance motor control applications. Unlike a traditional microcontroller or DSP, the IRMCK371 provides a built-in closed loop sensorless control algorithm using the unique Motion Control Engine (MCETM) for permanent magnet motors. 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. IRMCK371 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. Motion control programming is achieved 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. Figure 1 shows a typical application schematic using the IRMCK371. IRMCF371 is intended for development purpose and contains 48K bytes of RAM, which can be loaded from external EEPROM for 8051 program execution. For high volume production, IRMCK371 contains OTP ROM in place of program RAM to reduce the cost. Both IRMCK371 and IRMCK371 come in the same 48-pin QFP package with identical pin configuration to facilitate PC board layout and transition to mass production
Figure 1.
Typical Application Block Diagram Using IRMCK371
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IRMCK371 2 IRMCK371 Block Diagram and Main Functions
IRMCK371 block diagram is shown in Figure 2.
8bit uP Address/Data bus
Figure 2.
IRMCK371 Internal Block Diagram
IRMCK371 contains the following functions for sensorless AC motor control applications: * Motion Control Engine (MCETM) o Proportional plus Integral block o Low pass filter o Differentiator and lag (high pass filter) o Ramp o Limit o Angle estimate (sensorless control) o Inverse Clark transformation o Vector rotator o Bit latch o Peak detect o Transition o Multiply-divide (signed and unsigned)
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Motion Control Bus
IRMCK371
o o o o o o o o o o o o o * Divide (signed and unsigned) Adder Subtractor Comparator Counter Accumulator Switch Shift ATAN (arc tangent) Function block (any curve fitting, nonlinear function) 16-bit wide Logic operations (AND, OR, XOR, NOT, NEGATE) MCETM program and data memory (6K byte). Note 1 MCETM control sequencer
8051 microcontroller o Three 16-bit timer/counters o 16-bit periodic timer o 16-bit analog watchdog timer o 16-bit capture timer o Up to 13 discrete I/Os o Four-channel 12-bit A/D One buffered channel for current sensing (0 - 1.2V input) Three unbuffered channels (0 - 1.2V input) o JTAG port (4 pins) o One channel of analog output (8-bit PWM) o UART o I2C/SPI port o 64K byte program OTP o 2K byte data RAM. Note 1 Note 1: Total size of RAM is 8K byte including MCE program, MCE data, and 8051 data. Different sizes can be allocated depending on applications.
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IRMCK371 3 Pinout
SCL/SO-SI/VPP
P5.2/TDO
P5.1/TMS
48 47 46 45 44 43 42 41 40 39 38 37 XTAL0 XTAL1 P1.0/T2 P1.1/RXD P1.2/TXD P1.3/SYNC/SCK P1.4/CAP VDD2 VSS VDD1 P2.0/NMI P2.1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 AVSS CMEXT AIN1 IFB+ VSS AVDD VDD2 IFBO AIN0 36 35 34 33 32 31 30 29 28 27 26 25 P3.0/INT2/CS1 PWMUH PWMUL PWMVH PWMVL PWMWH PWMWL GATEKILL VDD1 VSS VDD2 AIN2
(Top View)
P2.6/AOPWM
Figure 3.
IRMCK371 Pin Configuration
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AREF
IFB-
P3.2/INT0
SDA/CS0
P5.3/TDI
PLLVDD
PLLVSS
RESET
VSS
TCK
NC
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IRMCK371 4 Input/Output of IRMCK371
All I/O signals of IRMCK371 are shown in Figure 4. All I/O pins are 3.3V logic interface except A/D interface pins.
Crystal RS232C Interface I2C Interface
XTAL0 XTAL1
P1.2/TXD P1.1/RXD SDA/CS0 SCL/SO-S/VPPI
PWMUH PWMUL PWMVH PWMVL PWMWH PWMWL GATEKILL
PWM gate signal Interface
Discrete I/O
P1.0/T2 P1.3/SYNC/SCK P1.4/CAP P2.0/NMI P2.1 P3.0/INT2/CS1 P3.2/INT0 RESET
AVDD AVSS AREF CMEXT
System Reset
JTAG port D/A Interface (PWM output)
P5.3/TDI TCK P5.1/TSM P5.2/TDO P2.6/AOPWM
IFB+ IFBIFBO AIN0 AIN1 AIN2
A/D Interface
VDD1 VDD2 VSS PLLVDD PLLVSS
Digital power/ ground PLL power/ ground
OTP programming
SCL/SO-S/VPPI
Figure 4.
Input/Output of IRMCK371
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4.1
8051 Peripheral Interface Group
Output, Transmit data from IRMCK371, can be configured as P1.2 Input, Receive data to IRMCK371, can be configured as P1.1
UART Interface P1.2/TXD P1.1/RXD
Discrete I/O Interface P1.0/T2 Input/output port 1.0, can be configured as Timer 2 input P1.1/RXD Input/output port 1.1, can be configured as RXD input P1.2/TXD Input/output port 1.2, can be configured as TXD output P1.3/SYNC/SCK Input/output port 1.3, can be configured as SYNC output or SPI clock P1.4/CAP Input/output port 1.4, can be configured as Capture Timer input P2.0/NMI Input/output port 2.0, can be configured as non-maskable interrupt input P2.1 Input/output port 2.1 P3.0/INT2/CS1 Input/output port 3.0, can be configured as INT2 input or SPI chip select 1 P3.2/INT0 Input/output port 3.2, can be configured as INT0 input Analog Output Interface AOPWM Output, PWM output 0, 8-bit resolution, configurable carrier frequency Crystal Interface XTAL0 XTAL1 Reset Interface RESET I2C/SPI Interface SCL/SO-SI SDA/CS0 P3.0/INT2/CS1 P1.3/SYNC/SCK Input, connected to crystal Output, connected to crystal Inout, system reset, needs to be pulled up to VDD1 but doesn't require external RC time constant Input/output, I2C clock output or SPI data Input/output, I2C Data line or SPI chip select 0 Input/output, INT2 or SPI chip select 1 Input/output, SYNC output or SPI clock, needs to be pulled up to VDD1 in order to boot from I2C EEPROM
4.2
Motion Peripheral Interface Group
Output, PWM phase U high side gate signal Output, PWM phase U low side gate signal Output, PWM phase V high side gate signal Output, PWM phase V low side gate signal Output, PWM phase W high side gate signal Output, PWM phase W low side gate signal Input, upon assertion, this negates all six PWM signals, programmable logic sense
PWM PWMUH PWMUL PWMVH PWMVL PWMWH PWMWL Fault GATEKILL
Rev 1.0
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IRMCK371
4.3 Analog Interface Group
Analog power (1.8V) Analog power return 0.6V buffered output Unbuffered 0.6V, input to the AREF buffer, capacitor needs to be connected. Input, Operational amplifier positive input for shunt resistor current sensing Input, Operational amplifier negative input for shunt resistor current sensing Output, Operational amplifier output for shunt resistor current sensing Input, Analog input channel 0 (0 - 1.2V), typically configured for DC bus voltage input Input, Analog input channel 1 (0 - 1.2V), needs to be pulled down to AVSS if unused Input, Analog input channel 2 (0 - 1.2V), needs to be pulled down to AVSS if unused
AVDD AVSS AREF CMEXT IFB+ IFBIFBO AIN0 AIN1 AIN2
4.4
Power Interface Group
Digital power for I/O (3.3V) Digital power for core logic (1.8V) Digital common PLL power (1.8V) PLL ground return
VDD1 VDD2 VSS PLLVDD PLLVSS
4.5
Test Interface Group
Must be tied to VSS, used only for factory testing. Input/output port 5.1, configured as JTAG port by default Input/output port 5.2, configured as JTAG port by default Input/output port 5.3, configured as JTAG port by default Input, JTAG test clock
TSTMOD P5.1/TSM P5.2/TDO P5.3/TDI TCK
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IRMCK371 5 Application Connections
Typical application connection is shown in Figure 5. All components necessary to implement a complete sensorless drive control algorithm are shown connected to IRMCK371.
XTAL0 XTAL1 1.8V PLLVDD PLLVSS
System Clock
4MHz Crystal
PLL Logic RS232C I2C/SPI PORT1 PORT2 PORT3
System clock
Host Microcontroller (RS232C)
P1.2/TXD P1.1/RXD
Motion Control Modules Dual Port Memory (1Kbyte) & MCE Memory (3kByte)
Other Communication (I2C or SPI)
SDA/CS0 SCL/SO-SI P1.0/T2 P1.3/SYNC/SCK P1.4/CAP P2.0/NMI P2.1
Low Loss Space Vector PWM
PWMUH PWMUL PWMVH PWMVL PWMWH PWMWL
GATEKILL
Motion Control Sequencer
Digital I/O Control
P3.0/INT2/CS1 P3.2/INT0
0.6V IFBC+ Motor DC bus shunt resistor
P2.6/AOPWM0
Analog Output
PWM0
S/H Timers Watchdog Timer 12bit A/D & MUX
IFBCIFBCO
AIN0 AIN1 AIN2 AREF CMEXT Other analog input (0-1.2V)
DC bus voltage
TCLK
JTAG Control
P5.3/TDI P5.1/TSM P5.2/TDO RESET
JTAG Port Interface 5 RESET
System Reset
Local RAM 4kByte Program OTP ROM (64kByte)
Optional External Voltage Reference (0.6V)
Power
OTP Programming 6.5V 3.3V 1.8V
SCL/SO-SI VDD1 VDD2 VSS
AVDD AVSS
1.8V
8051 CPU
Clock divider
System clock
Figure 5.
Application Connection of IRMCK371
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IRMCK371 6 DC Characteristics
6.1 Absolute Maximum Ratings
Parameter Supply Voltage Supply Voltage Analog Input Voltage Digital Input Voltage Ambient Temperature Storage Temperature Table 1. Min Typ Max -0.3 V 3.6 V -0.3 V 1.98 V -0.3 V 1.98 V -0.3 V 3.65 V -40 C 85 C -65 C 150 C Absolute Maximum Ratings Condition Respect to VSS Respect to VSS Respect to AVSS Respect to VSS
Symbol VDD1 VDD2 VIA VID TA TS
Caution: Stresses beyond those listed in "Absolute Maximum Ratings" may cause permanent damage to the device. These are stress ratings only and function of the device at these or any other conditions beyond those indicated in the operational sections of the specifications are not implied.
6.2
System Clock Frequency and Power Consumption
Parameter System Clock 8051 Clock Table 2. Min Typ Max 32 128 32 System Clock Frequency
Power Consumption
180 160 140 120 Power (mW) 100 80 60 40 20 0 0 20 40 60 80 100 120 140 MCE Frequency (MHz) 1.8V 3.3V Total Power
Symbol SYSCLK 8051CLK
Unit MHz MHz
Figure 6.
Clock Frequency vs. Power Consumption
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IRMCK371
6.3
VDD1 VDD2 VIL VIH CIN IL IOL1(2) IOH1(2) IOL2(3) IOH2(3)
Digital I/O DC Characteristics
Parameter Supply Voltage Supply Voltage Input Low Voltage Input High Voltage Input capacitance Input leakage current Low level output current High level output current Low level output current High level output current Table 3. Min 3.0 V 1.62 V -0.3 V 2.0 V 8.9 mA 12.4 mA 17.9 mA 24.6 mA Typ 3.3 V 1.8 V 3.6 pF 10 nA 13.2 mA 24.8 mA 26.3 mA 49.5 mA Max 3.6 V 1.98 V 0.8 V 3.6 V 1 A 15.2 mA 38 mA 33.4 mA 81 mA Condition Recommended Recommended Recommended Recommended
(1)
Symbol
(1)
VO = 3.3 V or 0 V VOL = 0.4 V = 2.4 V = 0.4 V = 2.4 V
VOH (1) VOL (1) VOH (1)
Digital I/O DC Characteristics
Note: (1) Data guaranteed by design. (2) Applied to SCL/SO-SI, SDA/CS0 pins. (3) Applied to P1.0/T2, P1.1/RXD, P1.2/TXD, P1.3/SYNC/SCK, P1.4/CAP, P2.0/NMI, P2.1, P2.6/AOPWM0, P3.0/INT2/CS1, P3.2/INT0, P5.1/TMS, P5.2/TDO, P5.3/TDI, GATEKILL, PWMUL, PWMUH, PWMVL, PWMVH, PWMWL, PWMWH pins.
6.4
VPLLVDD VIL OSC VIH OSC
PLL and Oscillator DC characteristics
Parameter Min Typ Max Supply Voltage 1.62 V 1.8 V 1.92 V Oscillator Input Low VPLLVSS 0.2* Voltage VPLLVDD Oscillator Input High 0.8* VPLLVDD Voltage VPLLVDD Table 4. PLL DC Characteristics Condition Recommended VPLLVDD = 1.8 V
(1)
Symbol
VPLLVDD (1)
= 1.8 V
Note: (1) Data guaranteed by design.
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IRMCK371
6.5 Analog I/O DC Characteristics
Max 1.89 V 26 mV 1.2 V 1.2 V 20 k Condition Recommended VAVDD = 1.8 V Recommended VAVDD = 1.8 V
(1)
- OP amp for current sensing (IFB+, IFB-, IFBO) CAREF = 1nF, CMEXT= 100nF. Unless specified, Ta = 25C. Symbol Parameter Min Typ VAVDD Supply Voltage 1.71 V 1.8 V VOFFSET Input Offset Voltage VI Input Voltage Range 0V VOUTSW OP amp output 50 mV (1) operating range CIN Input capacitance 3.6 pF RFDBK OP amp feedback 5 k resistor OP GAINCL CMRR ISRC ISNK Operating Close loop Gain Common Mode Rejection Ratio Op amp output source current Op amp output sink current Table 5. 80 db 80 db 1 mA 100 A
Requested between IFBO and IFB(1) (1)
VOUT (1) VOUT (1)
= 0.6 V = 0.6 V
Analog I/O DC Characteristics
Note: (1) Data guaranteed by design.
6.6
Under Voltage Lockout DC characteristics
Condition VDD1 = 3.3 V VDD1 = 3.3 V
Unless specified, Ta = 25C, AVDD (1.8V) Symbol Parameter Min Typ Max UVCC+ UVcc positive going 1.53 V 1.66 V 1.71 V Threshold1) UVCCUVcc negative going 1.52 V 1.62 V 1.71 V Threshold UVCCH UVcc Hysteresys 40 mV Table 6. UVcc DC Characteristics Note: (1) Data guaranteed by design.
6.7
AREF Characteristics
Condition VAVDD = 1.8 V
CAREF = 1nF, CMEXT= 100nF. Unless specified, Ta = 25C. Symbol Parameter Min Typ Max VAREF AREF Output Voltage 495 mV 600 mV 700 mV Load regulation (VDC-0.6) 1 mV Vo PSRR Power Supply Rejection 75 db Ratio Table 7. AREF DC Characteristics Note: (1) Data guaranteed by design.
(1) (1)
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IRMCK371 7 AC Characteristics
7.1 PLL AC Characteristics
Parameter Min Typ Max Crystal input 3.2 MHz 4 MHz 60 MHz frequency Internal clock 32 MHz 50 MHz 128 MHz frequency Sleep mode output FCLKIN / 256 frequency Short time jitter 200 psec Duty cycle 50 % PLL lock time 500 sec Table 8. PLL AC Characteristics Condition
(1) (1)
Symbol FCLKIN FPLL FLWPW JS D TLOCK
(see figure below)
(1)
(1) (1) (1)
Note: (1) Data guaranteed by design.
R1=1M
R2=10
Xtal
C1=30PF C2=30PF
Figure 7
Crystal oscillator circuit
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IRMCK371
7.2 Analog to Digital Converter AC Characteristics
Min Typ Max 2.05 sec 10 sec Condition
(1)
Unless specified, Ta = 25C. Symbol Parameter TCONV Conversion time THOLD Sample/Hold maximum hold time
Voltage droop 15 LSB (see figure below)
Table 9. A/D Converter AC Characteristics Note: (1) Data guaranteed by design.
Input Voltage Voltage droop S/H Voltage
tSAMPLE THOLD
Figure 8
Voltage droop of sample and hold
7.3
Op Amp AC Characteristics
- OP amps for current sensing (IFB+, IFB-, IFBO) Unless specified, Ta = 25C. Symbol Parameter OPSR OP amp slew rate OPIMP TSET OP input impedance Settling time Table 10.
Min -
Typ 10 V/sec 108 400 ns
Max -
Condition VAVDD = 1.8 V, CL = 33 pF (1)
(1)
VAVDD = 1.8 V, CL = 33 pF (1) Current Sensing OP amp Amp AC Characteristics
Note: (1) Data guaranteed by design.
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IRMCK371
7.4 SYNC to SVPWM and A/D Conversion AC Timing
twSYNC
SYNC
tdSYNC1
IU,IV,IW
tdSYNC2
AINx
tdSYNC3
PWMUx,PWMVx,PWMWx
Figure 9
SYNC to SVPWM and A/D Conversion AC Timing
Unless specified, Ta = 25C. Symbol Parameter twSYNC SYNC pulse width tdSYNC1 SYNC to current feedback conversion time tdSYNC2 SYNC to AIN0-6 analog input conversion time tdSYNC3 SYNC to PWM output delay time Table 11.
Min -
Typ 32 -
Max 100 200 2
Unit SYSCLK SYSCLK SYSCLK
(1)
SYSCLK
SYNC AC Characteristics
Note: (1) AIN1 through AIN6 channels are converted once every 6 SYNC events
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IRMCK371
7.5 GATEKILL to SVPWM AC Timing
Figure 10
GATEKILL to SVPWM AC Timing
Unless specified, Ta = 25C. Symbol Parameter Min Typ Max twGK GATEKILL pulse width 32 tdGK GATEKILL to PWM 100 output delay Table 12. GATEKILL to SVPWM AC Timing
Unit SYSCLK SYSCLK
7.6
Interrupt AC Timing
Figure 11
Interrupt AC Timing
Unless specified, Ta = 25C. Symbol Parameter Min Typ Max twINT INT0, INT1 Interrupt 4 Assertion Time tdINT INT0, INT1 latency 4 Table 13. Interrupt AC Timing
Unit SYSCLK SYSCLK
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IRMCK371
7.7 I2C AC Timing
TI2CLK TI2CLK
SCL tI2WSETUP tI2WHOLD tI2RSETUP tI2RHOLD tI2EN2
tI2ST1 tI2ST2
tI2EN1
SDA
Figure 12 Unless specified, Ta = 25C. Symbol Parameter 2 TI2CLK I C clock period tI2ST1 I2C SDA start time tI2ST2 I2C SCL start time tI2WSETUP I2C write setup time tI2WHOLD I2C write hold time tI2RSETUP I2C read setup time tI2RHOLD I2C read hold time
I2C AC Timing
Min Typ 10 0.25 0.25 0.25 0.25 2 (1) I C filter time 1 Table 14. I2C AC Timing
Max 8192 -
Unit SYSCLK TI2CLK TI2CLK TI2CLK TI2CLK SYSCLK SYSCLK
Note: (1) I2C read setup time is determined by the programmable filter time applied to I2C communication.
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IRMCK371
7.8 SPI AC Timing
7.8.1 SPI Write AC timing
Figure 13 Unless specified, Ta = 25C. Symbol Parameter TSPICLK SPI clock period tSPICLKHT SPI clock high time tSPICLKLT SPI clock low time tCSDELAY CS to data delay time tWRDELAY CLK falling edge to data delay time tCSHIGH CS high time between two consecutive byte transfer tCSHOLD CS hold time Table 15.
SPI write AC Timing
Min 4 1
Typ 1/2 1/2 -
Max 10 10 -
Unit SYSCLK TSPICLK TSPICLK nsec nsec TSPICLK TSPICLK
1 SPI Write AC Timing
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IRMCK371
7.8.2 SPI Read AC Timing
Figure 14 Unless specified, Ta = 25C. Symbol Parameter TSPICLK SPI clock period tSPICLKHT SPI clock high time tSPICLKLT SPI clock low time tCSRD CS to data delay time tRDSU SPI read data setup time tRDHOLD SPI read data hold time tCSHIGH CS high time between two consecutive byte transfer tCSHOLD CS hold time Table 16.
SPI read AC Timing
Min 4 10 10 1
Typ 1/2 1/2 -
Max 10 -
Unit SYSCLK TSPICLK TSPICLK nsec nsec nsec TSPICLK TSPICLK
1 SPI Read AC Timing
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7.9 UART AC Timing
TBAUD
TXD
Start Bit
RXD
Data and Parity Bit
Stop Bit
TUARTFIL
Figure 15
UART AC Timing
Unless specified, Ta = 25C. Symbol Parameter Min Typ TBAUD Baud Rate Period 57600 TUARTFIL UART sampling filter 1/16 period (1) Table 17. UART AC Timing
Max -
Unit bit/sec TBAUD
Note: (1) Each bit including start and stop bit is sampled three times at center of a bit at an interval of 1/16 TBAUD. If three sampled values do not agree, then UART noise error is generated.
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7.10 CAPTURE Input AC Timing
Figure 16
CAPTURE Input AC Timing
Unless specified, Ta = 25C. Symbol Parameter Min Typ Max TCAPCLK CAPTURE input period 8 tCAPHIGH CAPTURE input high 4 time tCAPLOW CAPTURE input low 4 time 4 tCRDELAY CAPTURE falling edge to capture register latch time 4 tCLDELAY CAPTURE rising edge to capture register latch time tINTDELAY CAPTURE input 4 interrupt latency time Table 18. CAPTURE AC Timing
Unit SYSCLK SYSCLK SYSCLK SYSCLK SYSCLK SYSCLK
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7.11 JTAG AC Timing
TJCLK
TCK
tJHIGH
tJLOW
tCO
TDO tJSETUP tJHOLD
TDI/TMS
Figure 17 Unless specified, Ta = 25C. Symbol Parameter TJCLK TCK Period tJHIGH TCK High Period tJLOW TCK Low Period tCO TCK to TDO propagation delay time tJSETUP TDI/TMS setup time tJHOLD TDI/TMS hold time Table 19.
JTAG AC Timing
Min 10 10 0
Typ -
Max 50 5 -
Unit MHz nsec nsec nsec nsec nsec
4 0 JTAG AC Timing
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7.12 OTP Programming Timing
Figure 18 Unless specified, Ta = 25C. Symbol Parameter TVPS VPP Setup Time TVPH VPP Hold Time Table 20.
OTP Programming Timing
Min Typ Max 10 15 OTP Programming Timing
Unit nsec nsec
Rev 1.0
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IRMCK371 8 I/O Structure
The following figure shows the motor PWM and digital I/O structure
VDD1 (3.3V) Internal digital circuit Low true logic 6.0V PIN 100 70k
6.0V
VSS
Figure 19 All digital I/O except motor PWM output The following figure shows RESET and GATEKILL I/O structure.
VDD1 (3.3V) RESET GATEKILL I/O 6.0V PIN 100 70k
6.0V
VSS
Figure 20 RESET, GATEKILL I/O
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The following figure shows the analog input structure.
AVDD
Analog input
6.0V PIN 100 Analog Circuit
6.0V
AVSS
Figure 21 Analog input The following figure shows all analog operational amplifier output pins and AREF pin I/O structure.
1.8V
Analog output
6.0V PIN Analog Circuit
6.0V
AVSS
Figure 22
Analog operational amplifier output and AREF I/O structure
The following figure shows the VPP pin I/O structure
VPP input
PIN
100 Analog Circuit
8.0V
VSS
Figure 23 VPP programming pin I/O structure
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The following figure shows the VSS, AVSS and PLLVSS pin structure
Figure 24 VSS, AVSS and PLLVSS pin structure The following figure shows the VDD1, VDD2, AVDD and PLLVDD pin structure
Figure 25 VDD1, VDD2, AVDD and PLLVDD pin structure The following figure shows the XTAL0 and XTAL1 pins structure
VDD1
6.0V PIN
6.0V
VSS
Figure 26
XTAL0/XTAL1 pins structure
Rev 1.0
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IRMCK371 9 Pin List
Pin Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Pin Name XTAL0 XTAL1 P1.0/T2 P1.1/RXD P1.2/TXD P1.3/SYNC/ SCK P1.4/CAP VDD2 VSS VDD1 P2.0/NMI P2.1 P2.6/AOPW M VDD2 VSS AIN0 AVDD AVSS AIN1 CMEXT AREF IFBIFB+ IFBO AIN2 VDD2 VSS VDD1 GATEKILL PWMWL PWMWH 70 k Pull up 70 k Pull up Internal Pull-up /Pull-down Pin Type I O I/O I/O I/O I/O I/O P P P I/O I/O I/O P P I P P I O O I I O I P P P I O O Description Crystal input Crystal output Discrete programmable I/O or Timer/Counter 2 input Discrete programmable I/O or UART receive input Discrete programmable I/O or UART transmit output Discrete programmable I/O or SYNC output or SPI clock output Discrete programmable I/O or Capture Timer input 1.8V digital power Digital common 3.3V digital power Discrete I/O or Non Maskable Interrupt Discrete I/O Discrete I/O or PWM digital output 1.8V digital power Digital common Analog input channel 0, 0-1.2V range, needs to be pulled down to AVSS if unused 1.8V analog power Analog common Analog input channel 1, 0-1.2V range, needs to be pulled down to AVSS if unused Unbuffered 0.6V output. Capacitor needs to be connected. Analog reference voltage output (0.6V) Single shunt current sensing OP amp input (-) Single shunt current sensing OP amp input (+) Single shunt current sensing OP amp output Analog input channel 2, 0-1.2V range, needs to be pulled down to AVSS if unused 1.8V digital power Digital common 3.3V digital power PWM shutdown input, 2-sec digital filter, configurable either high or low true. PWM gate drive for phase W low side, configurable either high or low true PWM gate drive for phase W high side, configurable either high or low true
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Pin Number 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 Pin Name PWMVL PWMVH PWMUL PWMUH P3.0/INT2/C S1 P3.2/NINT0 VSS SCL/SO-SI SDA/CS0 P5.1/TMS P5.2/TDO P5.3/TDI TCK TSTMOD RESET PLLVDD PLLVSS Internal Pull-up /Pull-down 70 k Pull up 70 k Pull up 70 k Pull up 70 k Pull up Pin Type O O O O I/O I/O P I/O I/O I/O I/O I/O I I Description PWM gate drive for phase V low side, configurable either high or low true PWM gate drive for phase V high side, configurable either high or low true PWM gate drive for phase U low side, configurable either high or low true PWM gate drive for phase U high side, configurable either high or low true Discrete programmable I/O or external interrupt 2 input or SPI chip select 1 Discrete programmable I/O or external interrupt 0 input Digital common I2C clock or SPI data I2C data or SPI chip select 0 Discrete I/O or JTAG test mode select Discrete I/O or JTAG test data output Discrete I/O or JTAG test data input JTAG test clock input Test mode input, must be tied to VSS
58 k pull down
I/O Reset, low true, Schmitt trigger input P 1.8V PLL power P PLL ground Table 21. Pin List
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IRMCK371 10 Package Dimensions
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IRMCK371 11 Part Marking Information
12 Order Information
Lead-Free Part in 48-lead QFP Moisture Sensitivity Rating - MSL3 Part number IRMCK371TR IRMCK371TY Order quantities 2000 parts on tape and reel in dry pack 2500 parts on trays (160 parts per tray) in dry pack
The LQFP-48 is MSL3 qualified This product has been designed and qualified for the industrial level Qualification standards can be found at www.irf.com IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, Tel: (310) 252-7105
Data and specifications subject to change without notice. 12/25/2007 www.irf.com
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