irmcf588 - International Rectifier

IRMCF588
Dual Motor High Performance Sensorless Control IC
Description
IRMCF588 is a high performance Flash based motion control IC designed and optimized for complete air
conditioner control which contains two kinds of computation engines integrated into one chip. There are two
TM
Motion Control Engines (MCE ) for sensorless control of permanent magnet motors and the other is an 8-bit
high-speed microcontroller (8051). The user can program a motion control algorithm by connecting these control
elements using a graphic compiler. Key components of the complex sensorless control algorithms, such as the
Angle Estimator, are provided as complete pre-defined control blocks. A unique analog/digital circuit and
algorithm fully supports single shunt or leg shunt current reconstruction. IRMCF588 performs a PFC (Power
Factor Correction) function in addition to the motor control. IRMCF588 comes in a 100 pin QFP package.
Features
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Product Summary
TM
Dual MCE (Flexible Motion Control Engine) Dedicated computation engine for high efficiency
sinusoidal sensorless motor control
Built-in hardware peripheral for single or two shunt
current feedback reconstruction and OP amp
analog circuits
Integrated temperature sensor
Supports both interior and surface permanent
magnet motor sensorless control
Zero speed sensorless control for ultra-low speed
operation
Dedicated PFC PWM for digital PFC control
Loss minimization Space Vector PWM
Five-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
Two Serial communication interface (UART)
I2Cserial interface
Watchdog timer with independent internal clock
Internal 64 Kbyte flash plus 16Kbyte OTP memory
3.3V single supply
Factory calibrated analog inputs
Base Part Number
Package Type
IRMCF588
LQFP100
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Maximum clock input (fcrystal)
Maximum Internal clock (SYSCLK)
Maximum 8051 clock (8051CLK)
Sensorless control computation time
TM
MCE computation data range
8051 Program Flash
8051/MCE Data RAM
MCE Program RAM
MCE Program OTP
GateKill latency (digital filtered)
PWM carrier frequency
A/D input channels
A/D converter resolution
A/D converter conversion speed
Analog output (PWM) resolution
UART baud rate (typ)
Number of digital I/O (max)
Package (lead free)
Typical 3.3V operating current
Standard Pack
60 MHz
120MHz
30MHz
35 μsec@100MHz
16 bit signed
52KB
2 x 4KB
2 x 12KB
16KB
2 μsec
20 bits/ SYSCLK
15
12 bits
2 μsec
8 bits
57.6K bps
31
QFP100
50mA
Orderable Part Number
Form
Quantity
Tray
900
IRMCF588QTY
Tape & Reel
1000
IRMCF588QTR
© 2015 International Rectifier
February 20, 2015
IRMCF588
Table of Contents
1
OVERVIEW .................................................................................................................................................................... 5
2
PINOUT ......................................................................................................................................................................... 6
3
IRMCF588 BLOCK DIAGRAM AND MAIN FUNCTIONS .................................................................................................... 7
4
APPLICATION CONNECTION AND PIN FUNCTION .......................................................................................................... 9
4.1
4.2
4.3
4.4
4.5
4.6
5
8051 PERIPHERAL INTERFACE GROUP .................................................................................................................................. 11
MOTION PERIPHERAL INTERFACE GROUP .............................................................................................................................. 12
ANALOG INTERFACE GROUP ............................................................................................................................................... 13
POWER INTERFACE GROUP ................................................................................................................................................. 14
TEST INTERFACE GROUP .................................................................................................................................................... 14
FACTORY USE GROUP ........................................................................................................................................................ 14
DC CHARACTERISTICS.................................................................................................................................................. 15
5.1
5.2
5.3
5.4
5.5
5.5
5.6
5.7
6
ABSOLUTE MAXIMUM RATINGS .......................................................................................................................................... 15
SYSTEM CLOCK FREQUENCY AND POWER CONSUMPTION ......................................................................................................... 15
DIGITAL I/O DC CHARACTERISTICS ...................................................................................................................................... 16
ANALOG I/O DC CHARACTERISTICS...................................................................................................................................... 17
A/D ACCURACY............................................................................................................................................................... 17
UNDER VOLTAGE LOCKOUT DC CHARACTERISTICS ................................................................................................................... 17
ITRIP COMPARATOR DC CHARACTERISTICS ............................................................................................................................. 18
AREF CHARACTERISTICS .................................................................................................................................................... 18
AC CHARACTERISTICS .................................................................................................................................................. 19
6.1
6.2
6.3
6.4
6.5
6.6
6.7
6.8
6.9
6.10
6.11
DIGITAL PLL AC CHARACTERISTICS ...................................................................................................................................... 19
ANALOG TO DIGITAL CONVERTER AC CHARACTERISTICS ........................................................................................................... 20
OP AMP AC CHARACTERISTICS ............................................................................................................................................ 21
SYNC TO SVPWM AND A/D CONVERSION AC TIMING .......................................................................................................... 22
GATEKILL TO SVPWM AC TIMING ................................................................................................................................... 23
INTERNAL OVERCURRENT TRIP AC TIMING ............................................................................................................................ 23
INTERRUPT AC TIMING ...................................................................................................................................................... 24
2
I C AC TIMING ................................................................................................................................................................ 25
UART AC TIMING ............................................................................................................................................................ 26
CAPTURE INPUT AC TIMING ......................................................................................................................................... 27
JTAG AC TIMING ......................................................................................................................................................... 28
7
I/O STRUCTURE........................................................................................................................................................... 29
8
PIN LIST ....................................................................................................................................................................... 32
9
PACKAGE DIMENSIONS ............................................................................................................................................... 35
10
PART MARKING INFORMATION............................................................................................................................... 36
11
QUALIFICATION INFORMATION............................................................................................................................... 36
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© 2015 International Rectifier
February 20, 2015
IRMCF588
List of Tables
Table 1. Analog channel sensing functions in Leg and Single Shunt Modes ............................................ 13
Table 2. Absolute Maximum Ratings ........................................................................................................ 15
Table 3. System Clock Frequency.............................................................................................................. 15
Table 4. Digital I/O DC Characteristics ...................................................................................................... 16
Table 7. UVcc DC Characteristics .............................................................................................................. 18
Table 8. Itrip DC Characteristics ................................................................................................................ 18
Table 9. CMEXT and AREF DC Characteristics ........................................................................................... 18
Table 10. PLL AC Characteristics ............................................................................................................... 19
Table 11 . A/D Converter AC Characteristics ............................................................................................ 20
Table 12 Current Sensing OP Amp AC Characteristics .............................................................................. 21
Table 13. SYNC AC Characteristics ............................................................................................................ 22
Table 14. GATEKILL to SVPWM AC Timing ................................................................................................ 23
Table 15. Itrip AC Timing ........................................................................................................................... 23
Table 16. Interrupt AC Timing ................................................................................................................... 24
Table 17. I2C AC Timing ............................................................................................................................ 25
Table 18. UART AC Timing......................................................................................................................... 26
Table 19. CAPTURE AC Timing .................................................................................................................. 27
Table 20. JTAG AC Timing ......................................................................................................................... 28
Table 21. Pin List ....................................................................................................................................... 34
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© 2015 International Rectifier
February 20,2015
IRMCF588
List of Figures
Figure 1. Typical Application Block Diagram Using IRMCF588 .......................................... 5
Figure 2. Pinout of IRMCF588 .......................................................................................... 6
Figure 3. IRMCF588 Block Diagram .................................................................................. 7
Figure 4. IRMCF588 Single Shunt Connection Diagram .................................................... 9
Figure 5. IRMCF588 Analog Front End Diagram ............................................................. 10
Figure 6. Crystal circuit example .................................................................................... 19
Figure 7. Voltage droop and S/H hold time .................................................................... 20
Figure 8. Op amp output capacitor ................................................................................ 21
Figure 9. SYNC timing ..................................................................................................... 22
Figure 10. Gatekill timing ............................................................................................... 23
Figure 11. ITRIP timing ................................................................................................... 23
Figure 12. Interrupt timing ............................................................................................. 24
Figure 13. I2C Timing ...................................................................................................... 25
Figure 14. UART timing .................................................................................................. 26
Figure 15. CAPTURE timing ............................................................................................ 27
Figure 16. JTAG timing ................................................................................................... 28
Figure 17. Compressor, Fan and PFC PWM outputs ....................................................... 29
Figure 18. All digital I/O except PWM output ................................................................. 29
Figure 19. RESET, GATEKILL I/O ...................................................................................... 30
Figure 20. Analog input .................................................................................................. 30
Figure 22 Analog operational amplifier output and AREF I/O structure ........................ 30
Figure 23. VSS,AVSS pin I/O structure ............................................................................ 31
Figure 24. VDD,VDDCAP pin I/O structure...................................................................... 31
Figure 25. XTAL0/XTAL1 pins structure .......................................................................... 31
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© 2015 International Rectifier
February 20,2015
IRMCF588
1 Overview
IRMCF588 is a new generation International Rectifier integrated circuit device primarily designed as a one-chip
solution for complete two motor inverterized appliance motor control applications. Particular application includes a
full DC inverter Air Conditioner which requires two motor sensorless control plus power factor control. Unlike a
traditional microcontroller or DSP, the IRMCF588 provides a built-in two parallel running computation engines for
TM
two closed loop sensorless control algorithm using the unique Flexible Motion Control Engine (MCE ). The
TM
MCE consists of a collection of control elements, motion peripherals, a dedicated motion control sequencer and
dual port RAM to map internal signal nodes. IRMCF588 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, while still supporting leg shunt current sensing. Motion control programming is achieved using a
TM
dedicated graphical compiler integrated into the MATLAB/Simulink development environment. Sequencing,
user interface, host communication, and upper layer control tasks can be implemented in the 8051 high-speed 8bit microcontroller. The 8051 microcontroller is equipped with a JTAG port to facilitate emulation and debugging.
Figure 1 shows a typical application schematic using the IRMCF588 in leg shunt mode.
IRMCF588 contains 64K bytes of Flash program memory plus 16K bytes of OTP memory and comes in a 100-pin
QFP package.
RS232C
Serial Comm
(Indoor unit)
RS232C
Serial Comm
(Mainnance)
IR PFC+Inverter IPM (IRAM630-1562F)
DC bus
Compressor
Motor
AC input
(100230V)
PWM 7
EMI
Filter
FAULT
IRMCF588
Temperature feedback
Analog actuators
IPM
12
Analog input
Analog output
5
PWM
21
Relay, Valves, Switches
PFC +
3-Phase
HVIC
Driver
Digital I/O
6
3-Phase
HVIC
Driver
SPM
Outdoor Fan
40-60W
IR uIPM (IRSM836-035MA)
Figure 1. Typical Application Block Diagram Using IRMCF588
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February 20,2015
IRMCF588
10099 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76
75
1
2
74
3
73
4
72
5
71
6
70
7
69
8
68
9
67
66
10
11
65
12
64
13
63
14
62
15
61
(Top View)
16
60
17
59
18
58
19
57
20
56
21
55
22
54
53
23
24
52
25
51
26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
FS3
FS3
FS4
FS4
P3.4/T0
P1.2/TXD1
VSS
P1.1/RXD1
RESET
TCK
P4.7/TXD2
P5.1/TDI
P5.3/TDO
P4.6/RXD2
P5.2/TMS
P4.5/CAP
P3.0
CGATEKILL
P4.4
PFCGKILL
PFCPWM
P1.5
P4.3
CPWMUH
CPWMVH
P4.1/AOPWM3
P4.2/AOPWM4
P3.7
P2.1
P3.6
P4.0/ITRIP
P3.1/AOPWM2
FPWMUL
FPWMVL
FPWMWL
CPWMWL
CPWMVL
CPWMUL
CPWMWH
IRMCF588
VSS
IPFCIPFC+
IPFCO
AVSS
VDDCAP
FPWMUH
FPWMVH
FPWMWH
VDD
VSS
IFBF2+
P2.5
P2.6/AOPWM0
P2.7/AOPWM1
IFBF1O
IFBC2O
IFBC2IFBC2+
IFBF1IFBF1+
AIN0
AIN1
AIN2
AIN3
VDDCAP
AIN4
AIN5
VDD
IFBC1IFBC1+
IFBC1O
VSS
VSS
VPP
AREF
AIN7
P1.7
P1.6
P2.4
AIN8
AIN9
FS2
FS1
FS1
FS2
SDA
SCL
P1.0/T2
XTAL0
XTAL1
IFBF2IFBF2O
P2.3
P2.2
P3.2/INT0
P2.0/NMI
VDDCAP
VSS
AIN6
VDD
2 Pinout
Figure 2. Pinout of IRMCF588
6
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© 2015 International Rectifier
February 20,2015
IRMCF588
3 IRMCF588 Block Diagram and Main Functions
IRMCF588 block diagram for leg shunt mode is shown in Figure 3.
Dual Motion Control Engine
3
Monitoring
Speed
command
D/A
( PWM)
Capture
6
Timer
Counnter0,1,2
SND
Watchdog
Timer
UART
Program
Flash
64kB
RCV
I2C
SCL
SDA
CGATEKILL
PFC IGBT
PFCGKILL
PFC PWM
Compressor
MCE
MCE
Program
RAM
12kbyte
IPFC
ADC
S/H
OP amp
6
8bit
CPU
Core
PORT1
PORT2
Digital
I/Os
Local
RAM
2 kbyte
PORT3
PORT 5
8bit uP Address/data bus
Host
Interface
CPWM
Low Loss
SVPWM
Dual Port
RAM
2 kbyte
Interrupt
Control
8 bit ( 8051)
microcontroller
Ceramic
Resonator
(4MHz)
4
Low Loss
SVPWM
Fan
MCE
OTP
16kB
6
2
Freq
Synthesizer
IFBC2
AIN0-5
FPWM
3
ADC
S/H
OP amp
3
4
Dual Port
RAM
2 kbyte
AIN6-9
TXD2/RXD2,
SCL/SCA
UART & I2C
D/A (PWM)
To MCE
IFBF1
IFBF2
PX.X
30MHz
120MHz
3
ITRIP
MCE
Program
RAM
12kbyte
JTAG
IFBC1
ADCL
GPIO Port
Emulator
Debugger
3
2
AOPWM
Figure 3. IRMCF588 Block Diagram
IRMCF588 contains the following functions for sensorless AC motor control applications:
TM
Motion Control Engine (MCE )
• Sensorless FOC (complete sensorless field
oriented control)
• Proportional plus Integral block
• Low pass filter
• Differentiator and lag (high pass filter)
• Ramp
• Limit
• Angle estimate (sensorless control)
• Inverse Clark transformation
• Vector rotator
• Bit latch
• Peak detect
• Transition
• Multiply-divide (signed and unsigned)
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8051 microcontroller
• Two 16 bit timer/counters
• One 16 bit periodic timer
• One 16 bit watchdog timer
• One 16 bit capture timer
• Up to 31 discrete digital I/Os
• Ten-channel 12 bit A/D
o Buffered (current sensing) three
channels (0 – 1.2V input)
o Unbuffered seven channels (0 –
1.2V input)
• JTAG port (4 pins)
• Up to five channels of analog output (8 bit
PWM)
• UART
© 2015 International Rectifier
February 20,2015
IRMCF588
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2
I C port
TM
Dual MCE control sequencer
Adder
TM
MCE program memory (12 K byte X 2 )
Divide (signed and unsigned)
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)
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•
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64K byte Flash memory
2K byte data RAM
© 2015 International Rectifier
February 20,2015
IRMCF588
4 Application connection and Pin function
Figure 4 shows the application connections in single shunt mode. Figure 5 shows the analog front end diagram
with a single shunt configuration.
AC 230V
System
Clock
XTAL0
4MHz
Crystal
XTAL1
Frequency
Synthesizer
System
clock
Watchdog
Timer
P1.2/TXD
P1.1/RXD
SDA
SCL
Other Communication
(I2C)
Digital I/O
Control
P2.6/AOPWM0
P2.7/AOPWM1
Analog Output
P3.1/AOPWM2
TCLK
TDI
TSM
TDO
Compressor
MCE
Dual
Port
Memory
(2kB)
&
MCE
Memory
(12kB)
Timers
UART (Indoor unit)
8051
CPU
RS232C
I2C
PORT1
PORT2
PORT3
Low Loss
Space Vector
PWM
PFC
PWM
Current
sensing
PWM
signals
6
CGATEKILL
PFCPWM
IPFC+ 0.6V
S/H
IPFCIPFCO
0.6V
IFBC1+
Program
Flash
(64kByte)
PWM0
PWM1
PWM2
12bit
A/D
&
MUX
S/H
HVIC
IFBC1IFBC1O
IFBC2+
IFBC2-
Local
RAM
(2kByte)
JTAG
Interface
IFBC2O
6
AIN0,AIN1,AIN2, AIN3, AIN4, AIN5
Other analog input
Comp
Motor
System
Reset
RESET
RESET
Digital I/O
Control
P4.1/AOPWM3
Analog Output
P4.2/AOPWM4
PORT4
PORT5
PWM3
PWM4
Fan MCE
VPP
VDDCAP
VSS
1.8V
1.8V
Voltage
Regulator
6
P4.0/ITRIP
0.6V
IFBF1+
HVIC
S/H
IFBF1IFBF1O
Local
RAM
(4kByte)
VDD
3.3V
PWM
signals
Current
sensing
MCE
Memory
(12kB)
Program
OTP
(16kByte)
Fan OTP
Programming
(6.5V)
Low Loss
Space Vector
PWM
12bit
A/D
&
MUX
IFBF2+
S/H
IFBF2IFBF2O
4
AIN6,AIN7,AIN9, AIN9
Other analog input
IRMCF588
Fan
Motor
Figure 4. IRMCF588 Single Shunt Connection Diagram
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February 20,2015
IRMCF588
P4.0/ITRIP
Comparators
Fan
Motor
Enable/Disable
set
reset
F/F
Digital Filter
IFBF2O
IFBF2-
OP amplifier
A
N
A
L
O
G
IFBF2+
IFBF1O
0.6V
IFBF1-
OP amplifier
IFBF1+
M
U
L
T
I
P
L
E
X
E
R
0.6V
AIN6
AIN7
AIN8
AIN9
F/F
Enable/Disable
Comparator
IFBC1O
set
reset
Enable external Gatekill
Enable/Disable
IFBC1-
MCE2
Enable external Gatekill
CGATEKILL
Compressor
Motor
12bit
A/D
Digital Filter
F/F
set
reset
OP amplifier
IFBC1+
0.6V
IFBC2O
IFBC2-
OP amplifier
IFBC2+
PFCGKIL
Enable/Disable
IPFCO
IPFC-
OP amplifier
A
N
A
L
O
G
M
U
L
T
I
P
L
E
X
E
R
IPFC+
0.2V
AIN0
AIN1
12bit
A/D
MCE1
AIN2
AC230V
AIN3
ADCL
AIN5
Figure 5. IRMCF588 Analog Front End Diagram
10
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© 2015 International Rectifier
February 20,2015
IRMCF588
4.1
8051 Peripheral Interface Group
UART Interface
P1.2/TXD
P1.1/RXD
P4.6/TXD2
P4.7/RXD2
Output, Channel 1 Transmit data from IRMCF588
Input, Channel 1 Receive data to IRMCF588
Output, Channel 2 Transmit data from IRMCF588
Input, Channel 2 Receive data to IRMCF588
Discrete I/O Interface
P1.0/T2
P1.1/RXD
P1.2/TXD
P1.5
P1.6
P1.7
P2.0/NMI
P2.1
P2.2
P2.3
P2.4
P2.5
P2.6/AOPWM0
P2.7/AOPWM1
P3.0
P3.1/AOPWM2
P3.2/INT0
P3.4/T0
P3.6
P3.7
P4.0/ITRIP
P4.1/AOPWM3
P4.2/AOPWM4
P4.3
P4.4
P4.5/CAP
P4.6/TXD2
P4.7/RXD2
P5.1/TDI
P5.2/TMS
P5.3/TDO
Input/output port 1.0, can be configured as Timer/Counter 2 input
Input/output port 1.1, can be configured as RXD input
Input/output port 1.2, can be configured as TXD output
Input/output port 1.5
Input/output port 1.6
Input/output port 1.6
Input/output port 2.0, can be configured as non-maskable interrupt input
Input/output port 2.1
Input/output port 2.2
Input/output port 2.3
Input/output port 2.4
Input/output port 2.5
Input/output port 2.6, can be configured as AOPWM0 output
Input/output port 2.7, can be configured as AOPWM1 output
Input/output port 3.0
Input/output port 3.1, can be configured as AOPWM2 output
Input/output port 3.2, can be configured as INT0 input
Input/output port 3.4, can be configured as T0 input for counter mode
Input/output port 3.6
Input/output port 3.7
Input/output port 4.0, can be configured as overcurrent trip input for Fan motor
Input/output port 4.1, can be configured as AOPWM3 analog output
Input/output port 4.2, can be configured as AOPWM4 analog output
Input/output port 4.3
Input/output port 4.4
Input/output port 4.5, can be configured as Capture Timer input
Input/output port 4.6, can be configured as UART2 transmit
Input/output port 4.7, can be configured as UART2 receive
Input port 5.1, configured as JTAG port by default
Input port 5.2, configured as JTAG port by default
Output port 5.3, configured as JTAG port by default
Analog Output Interface
P2.6/AOPWM0
Input/output, can be configured as 8-bit PWM output 0 with programmable carrier
frequency
P2.7/AOPWM1
Input/output, can be configured as 8-bit PWM output 1 with programmable carrier
frequency
P3.1/AOPWM2
Input/output, can be configured as 8-bit PWM output 2 with programmable carrier
frequency
P4.1/AOPWM3
Input/output, can be configured as 8-bit PWM output 3 with programmable carrier
frequency
P4.2/AOPWM4
Input/output, can be configured as 8-bit PWM output with programmable carrier
frequency
11
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February 20,2015
IRMCF588
Crystal Interface
XTAL0
XTAL1
Input, connected to crystal
Output, connected to crystal
Reset Interface
RESET
Input and Output, system reset, doesn’t require external RC time constant
2
I C Interface
SCL
SDA
4.2
2
Output, I C clock output
2
Input/output, I C Data line
Motion Peripheral Interface Group
PWM
CPWMUH
CPWMUL
CPWMVH
CPWMVL
CPWMWH
CPWMWL
PFCPWM
FPWMUH
FPWMUL
FPWMVH
FPWMVL
FPWMWH
FPWMWL
Fault
CGATEKILL
PFCGKILL
P4.0/ITRIP
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Output, Compressor motor PWM phase U high side gate signal, internally pulled down
by 58kΩ, configured high true at a power up
Output, Compressor motor PWM phase U low side gate signal, internally pulled down
by 58kΩ, configured high true at a power up
Output, Compressor motor PWM phase V high side gate signal, internally pulled down
by 58kΩ, configured high true at a power up
Output, Compressor motor PWM phase V low side gate signal, internally pulled down
by 58kΩ, configured high true at a power up
Output, Compressor motor PWM phase W high side gate signal, internally pulled
down by 58kΩ, configured high true at a power up
Output, Compressor motor PWM phase W low side gate signal, internally pulled down
by 58kΩ, configured high true at a power up
Output, Compressor motor PFCPWM output signal, internally pulled up by 70kΩ,
configured low true at a power up
Output, Fan motor PWM phase U high side gate signal, internally pulled down by
58kΩ, configured high true at a power up
Output, Fan motor PWM phase U low side gate signal, internally pulled down by
58kΩ, configured high true at a power up
Output, Fan motor PWM phase V high side gate signal, internally pulled down by
58kΩ, configured high true at a power up
Output, Fan motor PWM phase V low side gate signal, internally pulled down by 58kΩ,
configured high true at a power up
Output, Fan motor PWM phase W high side gate signal, internally pulled down by
58kΩ, configured high true at a power up
Output, Fan motor PWM phase W low side gate signal, internally pulled down by
58kΩ, configured high true at a power up
Input, upon assertion this negates all six PWM signals, active low, internally pulled up
by 70kΩ
Input, upon assertion, this negates PFCPWM signal, active low, internally pulled up by
70kΩ
Input/output port 4.0, can be configured as overcurrent trip input for Fan motor
according to the setting of active_pol register, pulled up by 49kOhm internal resistor
© 2015 International Rectifier
February 20,2015
IRMCF588
4.3
Analog Interface Group
AVSS
AREF
Analog power return, (analog internal 1.8V power is shared with VDDCAP)
0.6V buffered output
IFBC1+
IFBC1IFBC1O
Input, Operational amplifier positive input for compressor motor shunt sensing
Input, Operational amplifier negative input for compressor motor shunt sensing
Output, Operational amplifier output for compressor motor shunt sensing
IFBC2+
IFBC2-
Input, Operational amplifier positive input for compressor motor leg shunt sensing
Input, Operational amplifier negative input for compressor motor leg shunt sensing
IFBC2O
Output, Operational amplifier output for compressor motor leg shunt
sensing
IPFC+
IPFCIPFCO
Input, Operational amplifier positive input for PFC current sensing
Input, Operational amplifier negative input for PFC current sensing
Output, Operational amplifier output for PFC current sensing
IFBF1+
IFBF1IFBF1O
Input, Operational amplifier positive input for Fan motor shunt sensing
Input, Operational amplifier negative input for Fan motor shunt sensing
Output, Operational amplifier output for Fan motor shunt sensing
IFBF2+
IFBF2IFBF2O
Input, Operational amplifier positive input for Fan motor leg shunt sensing
Input, Operational amplifier negative input for Fan motor leg shunt sensing
Output, Operational amplifier output for Fan motor leg shunt sensing
AIN0
Input, DC voltage sensing or Analog input channel 0 (0 – 1.2V), needs to be pulled
down to AVSS if unused
Input, AC Input voltage sensing or 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
Input, Analog input channel 3 (0 – 1.2V), needs to be pulled down to AVSS if unused
Input, Analog input channel 3 (0 – 1.2V), needs to be pulled down to AVSS if unused
Input, Analog input channel 5 (0 – 1.2V), needs to be pulled down to AVSS if unused
Input, Analog input channel 6 (0 – 1.2V), associated with Fan MCE, needs to be pulled
down to AVSS if unused
Input, Analog input channel 7 (0 – 1.2V), associated with Fan MCE, needs to be pulled
down to AVSS if unused
Input, Analog input channel 8 (0 – 1.2V), associated with Fan MCE, needs to be pulled
down to AVSS if unused
Input, Analog input channel 9 (0 – 1.2V), associated with Fan MCE, needs to be pulled
down to AVSS if unused
AIN1
AIN2
AIN3
AIN4
AIN5
AIN6
AIN7
AIN8
AIN9
Analog Channel
IPFC
IFBC1
IFBC2
AIN1
13
Leg Shunt Mode
Single Shunt Mode
Pin number(s)
PFC Current
PFC Current
27,28,29
Motor U Phase Current
Motor Shunt Current
19,20,21
Motor V Phase Current
6,7,8
AC Voltage
AC Voltage
12
Table 1. Analog channel sensing functions in Leg and Single Shunt Modes
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© 2015 International Rectifier
February 20,2015
IRMCF588
4.4
Power Interface Group
VDD
VDDCAP
VSS
4.5
Test Interface Group
P5.2/TMS
P5.3/TDO
P5.1/TDI
TCK
4.6
Digital power (3.3V)
Internal 1.8V output, requires capacitors to the pin. Shared with analog power pad
internally
Note: The internal 1.8V supply is not designed to power any external circuits or
devices. Only capacitors should be connected to this pin.
System common
JTAG test mode input or input digital port for compressor MCE
JTAG data output port for compressor MCE
JTAG data input, or input digital port for compressor MCE
JTAG test clock port for compressor MCE
Factory use Group
FS1
Pin82 and Pin83 need to be connected and pulled up by 4.7K resistor for factory
purpose
Pin81 and Pin84 need to be connected and pulled up by 4.7K resistor for factory
purpose
Pin74 and Pin75 need to be connected and pulled up by 4.7K resistor for factory
purpose
Pin73 and Pin72 need to be connected and pulled up by 4.7K resistor for factory
purpose
FS2
FS3
FS4
14
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© 2015 International Rectifier
February 20,2015
IRMCF588
5 DC Characteristics
5.1
Absolute Maximum Ratings
Symbol
VDD
VIA
VID
TA
TS
Parameter
Supply Voltage
Analog Input Voltage
Digital Input Voltage
Ambient Temperature
Storage Temperature
Min
Typ
Max
-0.3 V
3.6 V
-0.3 V
1.98 V
-0.3 V
6.0 V
-40 ˚C
85 ˚C
-65 ˚C
150 ˚C
Table 2. Absolute Maximum Ratings
Condition
Respect to VSS
Respect to AVSS
Respect to VSS
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.
5.2
System Clock Frequency and Power Consumption
CAREF = 1nF, CMEXT= 100nF. VDD=3.3V, Unless specified, Ta = 25˚C.
Symbol
Parameter
Min
Typ
Max
SYSCLK
System Clock
32
120
1
PD
Power consumption
150
Table 3. System Clock Frequency
Unit
MHz
mW
Note
1) The value is based on the condition of MCE clock=100MHz, 8051 clock 20MHz with an actual motor and PFC
running by a typical MCE application program and 8051 code.
15
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© 2015 International Rectifier
February 20,2015
IRMCF588
5.3
Digital I/O DC Characteristics
Symbol
VDD1
VIL
VIH
CIN
IL
(2)
IOL1
Parameter
Supply Voltage
Input Low Voltage
Input High Voltage
Input capacitance
Input leakage current
Low level output current
(2)
IOH1
(3)
IOL2
(3)
IOH2
Min
3.0 V
-0.3 V
2.0 V
-
Typ
3.3 V
-
8.9 mA
3.6 pF
±10 nA
13.2 mA
Max
3.6 V
0.8 V
3.6 V
±1 μA
15.2 mA
High level output
current
Low level output current
12.4 mA
24.8 mA
38 mA
VOH = 2.4 V
17.9 mA
26.3 mA
33.4 mA
VOL = 0.4 V
High level output
current
24.6 mA
49.5 mA
81 mA
VOH = 2.4 V
Condition
Recommended
Recommended
Recommended
(1)
VO = 3.3 V or 0 V
VOL = 0.4 V
(1)
(1)
(1)
(1)
Table 4. Digital I/O DC Characteristics
Note:
(1) Data guaranteed by design.
(2) Applied to SCL, SDA pins.
(3) Applied to all digital I/O pins except SCL and SDA pins.
16
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© 2015 International Rectifier
February 20,2015
IRMCF588
5.4
Analog I/O DC Characteristics
- OP amps for compressor, fan and PFC current sensing
CAREF = 1nF. VDD=3.3V, Unless specified, Ta = 25˚C.
Symbol
Parameter
Min
VOFFSET
Input Offset Voltage
VI
Input Voltage Range
0V
VOUTSW
OP amp output
50 mV
(1)
operating range
CIN
Input capacitance
RFDBK
OP amp feedback
5 kΩ
resistor
OP GAINCL
Typ
-
Max
26 mV
1.2 V
1.2 V
Condition
VAVDD = 1.8 V
Recommended
VAVDD = 1.8 V
3.6 pF
-
20 kΩ
(1)
Operating Close loop
80 db
Gain
Common Mode
80 db
Rejection Ratio
Op amp output source
1 mA
current
Op amp output sink
100 μA
current
Min Voltage for Ain 0 -9
60 mV
NA
NA
Table 5. Analog I/O DC Characteristics
CMRR
ISRC
ISNK
Vmin
Requested
between IFBO and
IFB(1)
(1)
VOUT = 0.6 V
(1)
VOUT = 0.6 V
(1)
(1)
Note:
(1) Data guaranteed by design.
5.5
A/D Accuracy
Unless specified, Ta = 25˚C.
A/D accuracy for current sensing (IFBC1+,IFBC1-,IFBC1O, IFBC2+,IFBC2-,IFBC2O, IFBF1+,IFBF1-,IFBF1O,
IFBF2+,IFBF2-,IFBF2O,IPFC+,IPFC-,IPFCO), and analog input channels (AIN0-AIN9)
Symbol
ADCerror
Parameter
Error is the difference
between ideal counts
and compensated
counts for any applied
voltage in 0-1.2V range
Min
-
Typ
±10Counts
Max
-
(1)
(1)
Condition
Table 5. A/D Accuracy
Note:
(1) Characterized not tested at manufacturing.
5.5
Under Voltage Lockout DC characteristics
Unless specified, Ta = 25˚C.
Symbol
Parameter
UVCC+
UVcc positive going
Threshold
UVCCUVcc negative going
Threshold
17
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Min
2.78 V
Typ
3.04 V
Max
3.23 V
2.78 V
2.97 V
3.23 V
Condition
© 2015 International Rectifier
February 20,2015
IRMCF588
UVCCH
UVcc Hysteresys
73 mV
Table 6. UVcc DC Characteristics
(1)
Note:
(1) Data guaranteed by design.
5.6
Itrip comparator DC characteristics
Unless specified, VDD=3.3V, Ta = 25˚C.
Symbol
Parameter
Min
Typ
Max
Itrip+
Itrip positive going
1.22V
Threshold
ItripItrip negative going
1.10V
Threshold
ItripH
Itrip Hysteresys
120mV
Table 7. Itrip DC Characteristics
5.7
Condition
VDD = 3.3 V
VDD = 3.3 V
AREF Characteristics
CAREF = 1nF. Unless specified, Ta = 25˚C.
Symbol
Parameter
Min
Typ
Max
VAREF
Buffer Output Voltage
600 mV
Load regulation (VDC-0.6)
1 mV
∆Vo
PSRR
Power Supply Rejection Ratio
75 db
Table 8. CMEXT and AREF DC Characteristics
Note:
(1) Data guaranteed by design.
18
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© 2015 International Rectifier
Condition
VVDD = 3.3 V
(1)
(1)
February 20,2015
IRMCF588
6 AC Characteristics
6.1
Digital PLL AC Characteristics
Symbol
FCLKIN
FPLL
FLWPW
JS
D
TLOCK
Parameter
Crystal input
frequency
Internal clock
frequency
Sleep mode output
frequency
Short time jitter
Duty cycle
PLL lock time
Min
3.2 MHz
Typ
4 MHz
Max
60 MHz
Condition
32 MHz
50 MHz
128 MHz
(1)
FCLKIN ÷ 256
-
-
(1)
(1)
(see figure below)
200 psec
50 %
500 μsec
Table 9. PLL AC Characteristics
(1)
(1)
(1)
Note:
(1) Data guaranteed by design.
XTAL0
XTAL1
R1=1MΩ
R2=1KΩ
Xtal
C1=15PF
C2=15PF
Figure 6. Crystal circuit example
19
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© 2015 International Rectifier
February 20,2015
IRMCF588
6.2
Analog to Digital Converter AC Characteristics
Unless specified, Ta = 25˚C.
Symbol
Parameter
TCONV
Conversion time
THOLD
Sample/Hold maximum
hold time
Min
-
Typ
-
Max
2.05 μsec
10 μsec
Condition
(1)
Voltage droop ≤ 15
LSB
(see figure below)
Table 10 . A/D Converter AC Characteristics
Note:
(1) Data guaranteed by design.
Input Voltage
Voltage droop
S/H Voltage
tSAMPLE
THOLD
Figure 7. Voltage droop and S/H hold time
20
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© 2015 International Rectifier
February 20,2015
IRMCF588
6.3
Op amp AC Characteristics
Unless specified, Ta = 25˚C.
Symbol
Parameter
OPSR
OP amp slew rate
OPIMP
TSET
OP input impedance
Settling time
Min
-
Typ
10 V/μsec
Max
-
-
10 Ω
400 ns
-
8
Condition
VDD = 3.3 V, CL =
(1)
33 pF
(1) (2)
VDD = 3.3 V, CL =
(1)
33 pF
Table 11 Current Sensing OP Amp AC Characteristics
Note:
(1) Data guaranteed by design.
(2) To guarantee stability of the operational amplifier, it is recommended to load the output pin by a
capacitor of 47pF, see Figure 8. Here typical OP amp connection is shown but all op amp outputs should
be loaded with this capacitor value.
IRMCF588 IC
AVREF
External
components
47pF
Figure 8. Op amp output capacitor
21
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© 2015 International Rectifier
February 20,2015
IRMCF588
6.4
SYNC to SVPWM and A/D Conversion AC Timing
twSYNC
SYNC
tdSYNC1
IU,IV,IW
tdSYNC2
AINx
tdSYNC3
CPWMUx,CPWMVx,CPWMWx
Figure 9. SYNC timing
Unless specified, Ta = 25˚C.
Symbol
Parameter
twSYNC
SYNC pulse width
tdSYNC1
SYNC to current feedback
conversion time
tdSYNC2
SYNC to AIN0-9
tdSYNC3
Min
-
Typ
32
-
Max
100
Unit
SYSCLK
SYSCLK
-
-
200
SYSCLK
2
SYSCLK
SYNC to PWM output delay
time
Table 12. SYNC AC Characteristics
(1)
Note:
(1) Only any 3 AINx from the compressor AIN channels (AIN0 -AIN6) and any 2 AINx (AIN7 - AIN9) from the
fan AIN channels are converted once every SYNC events at the same time and the rest of the channels will
be sampled once every 5 SYNC events.
22
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© 2015 International Rectifier
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IRMCF588
6.5
GATEKILL to SVPWM AC Timing
twGK
CGATEKILL
tdGK
PWMUx,PWMVx,PWMWx
Figure 10. Gatekill timing
Unless specified, Ta = 25˚C.
Symbol
Parameter
Min
Typ
Max
twGK
GATEKILL pulse width
32
tdGK
GATEKILL to PWM
100
output delay
Table 13. GATEKILL to SVPWM AC Timing
6.6
Unit
SYSCLK
SYSCLK
Internal Overcurrent trip AC Timing
Itrip
CPWMUH,CPWMUL,
CPWMVH,CPWMVH,
CPWMWH,CPWMWL
FPWMUH,FPWMUL,
FPWMVH,FPWMVH,
FPWMWH,FPWMWL
tItrip
Figure 11. ITRIP timing
Unless specified, Ta = 25˚C.
Symbol
Parameter
tITRIP
Itrip propagation delay
23
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Min
Typ
Max
100(sysclk)+1.0usec
Table 14. Itrip AC Timing
© 2015 International Rectifier
Unit
SYSCLK+usec
February 20,2015
IRMCF588
6.7
Interrupt AC Timing
twINT
P3.2/INT0
tdINT
Internal
Program
Counter
Internal Vector Fetch
Figure 12. Interrupt timing
Unless specified, Ta = 25˚C.
Symbol
Parameter
twINT
INT0, NMI Interrupt
Assertion Time
tdINT
INT0, NMI latency
24
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Min
4
Typ
-
Max
-
4
Table 15. Interrupt AC Timing
Unit
SYSCLK
SYSCLK
© 2015 International Rectifier
February 20,2015
IRMCF588
6.8
I2C AC Timing
TI2CLK
TI2CLK
SCL
tI2ST1
tI2WSETUP
tI2WHOLD
tI2RSETUP
tI2EN1
tI2RHOLD
tI2ST2
tI2EN2
SDA
2
Figure 13. I C Timing
Unless specified, Ta = 25˚C.
Symbol
Parameter
2
TI2CLK
I C clock period
2
tI2ST1
I C SDA start time
2
tI2ST2
I C SCL start time
2
tI2WSETUP
I C write setup time
2
tI2WHOLD
I C write hold time
2
tI2RSETUP
I C read setup time
2
tI2RHOLD
I C read hold time
Min
Typ
10
0.25
0.25
0.25
0.25
2
(1)
I C filter time
1
2
Table 16. I C AC Timing
Max
8192
-
Unit
SYSCLK
TI2CLK
TI2CLK
TI2CLK
TI2CLK
SYSCLK
SYSCLK
Note:
2
2
(1) I C read setup time is determined by the programmable filter time applied to I C communication.
25
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February 20,2015
IRMCF588
6.9
UART AC Timing
TBAUD
TXD
Data and Parity Bit
Start Bit
Stop Bit
RXD
TUARTFIL
Figure 14. UART timing
Unless specified, Ta = 25˚C.
Symbol
Parameter
TBAUD
Baud Rate Period
TUARTFIL
UART sampling filter
(1)
period
Min
-
Typ
57600
1/16
Max
-
Unit
bit/sec
TBAUD
Table 17. UART AC Timing
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.
26
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© 2015 International Rectifier
February 20,2015
IRMCF588
6.10 CAPTURE Input AC Timing
TCAPCLK
tCAPHIGH
P4.5/CAP
tCAPLOW
tCRDELAY
CREV(H,L)
Internal
register
tCLDELAY
CLAST(H,L)
Internal
register
tINTDELAY
Interrupt
Vector Fetch
Interrupt
Figure 15. CAPTURE timing
Unless specified, Ta = 25˚C.
Symbol
Parameter
Min
Typ
TCAPCLK
CAPTURE input period
8
tCAPHIGH
CAPTURE input high time
4
tCAPLOW
CAPTURE input low time
4
tCRDELAY
CAPTURE falling edge to
capture register latch time
tCLDELAY
CAPTURE rising edge to
capture register latch time
tINTDELAY
CAPTURE input interrupt
latency time
Table 18. CAPTURE AC Timing
27
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Max
4
Unit
SYSCLK
SYSCLK
SYSCLK
SYSCLK
4
SYSCLK
4
SYSCLK
© 2015 International Rectifier
February 20,2015
IRMCF588
6.11 JTAG AC Timing
TJCLK
TCK
tJHIGH
tJLOW
tCO
TDO
tJSETUP
tJHOLD
TDI/TMS
Figure 16. JTAG timing
Unless specified, Ta = 25˚C.
Symbol
Parameter
Min
Typ
TJCLK
TCK Period
tJHIGH
TCK High Period
10
tJLOW
TCK Low Period
10
tCO
TCK to TDO propagation delay
0
time
tJSETUP
TDI/TMS setup time
4
tJHOLD
TDI/TMS hold time
0
Table 19. JTAG AC Timing
28
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Max
50
5
Unit
MHz
nsec
nsec
nsec
-
nsec
nsec
© 2015 International Rectifier
February 20,2015
IRMCF588
7 I/O Structure
The following figure shows the PWM output
(CPWMUH/CPWMUL/CPWMVH/CPWMVL/CPWMWH/CPWMWL/PFCPWM/FPWMUL/FPWMUH/FPWMVL/FPW
MVH/FPWMWL/FPWMWH)
VDD1
(3.3V)
Internal digital circuit
High true logic
6.0V
PIN
270 Ω
6.0V
58k Ω
VSS
Figure 17. Compressor, Fan and PFC PWM outputs
The following figure shows the digital I/O structure except the PWM output
VDD1
(3.3V)
Internal digital circuit
Low true logic
70k Ω
6.0V
PIN
270 Ω
6.0V
VSS
Figure 18. All digital I/O except PWM output
29
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© 2015 International Rectifier
February 20,2015
IRMCF588
The following figure shows RESET and CGATEKILL, PFCGKILL I/O for structure.
VDD1
(3.3V)
RESET
GATEKILL
circuit
70k Ω
6.0V
PIN
270 Ω
6.0V
VSS
Figure 19. RESET, GATEKILL I/O
The following figure shows the analog input structure:
VDDCAP(1.8V)
Analog input
6.0V
PIN
1 Ω
Analog Circuit
6.0V
AVSS
Figure 20. Analog input
The following figure shows all analog operational amplifier output pins and AREF pin I/O structure.
VDDCAP(1.8V)
Analog output
6.0V
PIN
Analog Circuit
6.0V
AVSS
Figure 21 Analog operational amplifier output and AREF I/O structure
30
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© 2015 International Rectifier
February 20,2015
IRMCF588
The following figure shows the VSS,AVSS pin I/O structure
VDD
AVDD
PIN
6.0V
Figure 22. VSS,AVSS pin I/O structure
The following figure shows the VDD,VDDCAP pin I/O structure
PIN
6.0V
VSS
Figure 23. VDD,VDDCAP pin I/O structure
The following figure shows the XTAL0 and XTAL1 pins structure
VDDCAP(1.8V)
6.0V
PIN
1 Ω
6.0V
VSS
Figure 24. XTAL0/XTAL1 pins structure
31
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February 20,2015
IRMCF588
8 Pin List
Pin
Number
1
Pin Name
IFBF2-
Internal Pullup /Pull-down
Pin
Type
I
2
3
4
5
P2.5
P2.6/AOPWM0
P2.7/AOPWM1
IFBF1O
I/O
I/O
I/O
O
6
IFBC2O
O
7
IFBC2-
I
8
IFBC2+
I
9
IFBF1-
I
10
IFBF1+
I
11
AIN0
I
12
AIN1
I
13
AIN2
I
14
AIN3
I
15
16
VDDCAP
AIN4
P
I
17
AIN5
I
18
19
VDD
IFBC-
P
I
20
IFBC+
I
21
IFBCO
O
22
23
24
25
26
27
VSS
VSS
VPP
AREF
VSS
IPFC-
P
P
P
O
P
I
32
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Description
nd
Op amp positive input for 2 leg shunt resistor current
sensing of Fan motor, 0-1.2V range
Discrete programmable I/O
Discrete programmable I/O or PWM 0 digital output
Discrete programmable I/O or PWM 1 digital output
st
Op amp output for 1 leg or single shunt resistor
current sensing of Fan motor, 0-1.2V range
nd
Op amp output 2 leg shunt current sensing of
compressor motor, 0-1.2V range
nd
Op amp negative input 2 leg shunt current sensing of
compressor motor, 0-1.2V range, needs to be pulled
down to AVSS if unused
nd
Op amp positive input 2 leg shunt current sensing of
compressor motor, 0-1.2V range, needs to be pulled
down to AVSS if unused
st
Op amp negative input for 1 leg or single shunt
resistor current sensing of Fan motor, 0-1.2V range
st
Op amp positive input for 1 leg or single shunt resistor
current sensing of Fan motor, 0-1.2V range
Analog input channel (0 – 1.2V) for DC voltage
sensing, needs to be pulled down to AVSS if unused
Analog input channel 1, 0-1.2V range, for AC voltage
sensing, needs to be pulled down to AVSS if unused
Analog input channel 2, 0-1.2V range, needs to be
pulled down to AVSS if unused
Analog input channel 3, 0-1.2V range, needs to be
pulled down to AVSS if unused
Internal 1.8V output, Capacitor(s) to be connected
Analog input channel 4, 0-1.2V range, needs to be
pulled down to AVSS if unused
Analog input channel 5, 0 – 1.2V range, needs to be
pulled down to AVSS if unused
3.3V digital power
st
Op amp negative input for 1 leg or single shunt
current sensing of compressor motor, 0-1.2V range,
needs to be pulled down to AVSS if unused
st
Op amp positive input for 1 leg or single shunt current
sensing of compressor motor, 0-1.2V range, needs to
be pulled down to AVSS if unused
st
Op amp output for 1 leg or single shunt current
sensing of compressor motor, 0-1.2V range
Analog and Digital Common
Analog and Digital Common
OTP programming voltage for Fan MCE
Analog reference voltage output (0.6V)
Analog and Digital Common
Op amp negative input for application sensing, 0-1.2V
range, needs to be pulled down to AVSS if unused
© 2015 International Rectifier
February 20,2015
IRMCF588
Pin
Number
28
Pin Name
IPFC+
29
30
31
32
IPFCO
AVSS
VDDCAP
FPWMUL
33
FPWMVL
34
FPWMWL
35
36
37
38
VDD
VSS
P3.1/AOPWM2
FPWMUH
39
FPWMVH
40
FPWMWH
41
CPWMWL
42
CPWMVL
43
CPWMUL
44
CPWMWH
45
46
47
48
P3.7
P2.1
P3.6
P4.0/ITRIP
49
50
51
P4.1/AOPWM3
P4.2/AOPWM4
CPWMVH
52
CPWMUH
53
54
55
56
57
58
P4.3
P1.5
PFCPWM
PFCGKILL
P4.4
CGATEKILL
59
60
61
62
P3.0
P4.5/CAP
P5.2/TMS
P4.6/RXD2
33
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Internal Pullup /Pull-down
58 kΩ Pull
down
58 kΩ Pull
down
58 kΩ Pull
down
58 kΩ Pull
down
58 kΩ Pull
down
58 kΩ Pull
down
58 kΩ Pull
down
58 kΩ Pull
down
58 kΩ Pull
down
58 kΩ Pull
down
49 kΩ Pull up
58 kΩ Pull
down
58 kΩ Pull
down
70 kΩ Pull up
70 kΩ Pull up
70 kΩ Pull up
Pin
Type
I
O
P
P
O
O
O
P
P
I/O
O
O
O
O
O
O
O
I/O
I/O
I/O
I/O
I/O
I/O
O
O
I/O
I/O
I/O
I
I/O
I
I/O
I/O
I
I/O
Description
Op amp positive input for application sensing, 0-1.2V
range, needs to be pulled down to AVSS if unused
Op amp output for application sensing, 0-1.2V range
Analog common
Internal 1.8V output, Capacitor(s) to be connected
PWM gate drive for phase U low side of Fan motor,
configurable either high or low true
PWM gate drive for phase V low side of Fan motor,
configurable either high or low true
PWM gate drive for phase W low side of Fan motor,
configurable either high or low true
3.3V power
Analog and Digital common
Discrete programmable I/O or PWM 2 digital output
PWM gate drive for phase U high side of Fan,
configurable either high or low true
PWM gate drive for phase V high side of Fan motor,
configurable either high or low true.
PWM gate drive for phase W high side of Fan motor,
configurable either high or low true
PWM gate drive for phase W low side of compressor
motor, configurable either high or low true.
PWM gate drive for phase V low side of compressor
motor, configurable either high or low true
PWM gate drive for phase U low side of compressor
motor, configurable either high or low true
PWM gate drive for phase W high side of compressor
motor, configurable either high or low true
Discrete programmable I/O
Discrete programmable I/O
Discrete programmable I/O
Discrete programmable I/O or Fan motor overcurrent
trip input, active low
Discrete programmable I/O or PWM 3 digital output
Discrete programmable I/O or PWM 4 digital output
PWM gate drive for phase V high side of compressor
motor, configurable either high or low true
PWM gate drive for phase U high side of compressor
motor, configurable either high or low true
Discrete programmable I/O
Discrete programmable I/O
PFC PWM gate drive , configurable either high or low
PFCPWM shutdown input, active low input.
Discrete programmable I/O
PWM shutdown input, configurable digital filter, active
low input.
Discrete programmable I/O
Discrete programmable I/O or Capture timer input
JTAG test mode select or digital input port
nd
Discrete programmable I/O, 2 UART receive
© 2015 International Rectifier
February 20,2015
IRMCF588
Pin
Number
63
64
65
66
67
68
69
70
71
Pin Name
P5.3/TDO
P5.1/TDI
P4.7/TXD2
TCK
RESET
P1.1/RXD1
VSS
P1.2/TXD1
P3.4/T0
Internal Pullup /Pull-down
Pin
Type
O
I
I/O
I
I
I/O
P
I/O
I/O
72
73
74
75
76
77
78
79
80
81
82
83
84
85
FS4
FS4
FS3
FS3
XTAL0
XTAL1
P1.0/T2
SCL
SDA
FS2
FS1
FS1
FS2
AIN9
I/O
I/O
I/O
I/O
I
O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I
86
AIN8
I
87
88
89
90
P2.4
P1.6
P1.7
AIN7
I/O
I/O
91
92
93
94
95
VDD
AIN6
VSS
VDDCAP
P2.0/NMI
P
I
P
P
I/O
96
97
98
99
P3.2/INT0
P2.2
P2.3
IFB2O
I/O
I/O
I/O
O
100
IFB2-
I
I
Description
JTAG test data output
JTAG test data input or digital input port
nd
Discrete programmable I/O, 2 UART transmit
JTAG test clock
Reset, low true, Schmitt trigger input
UART receiver input or Discrete programmable I/O
Analog and Digital common
UART transmitter output or Discrete programmable I/O
Discrete programmable I/O or Timer/Counter 2 input
Factory use, need to be connected to pin73
Factory use, need to be connected to pin72
Factory use, need to be connected to pin75
Factory use, need to be connected to pin74
Crystal input
Crystal output
Discrete programmable I/O or Timer/Counter 2 input
2
I C clock output (open drain, need pull up)
2
I C data (open drain, need pull up)
Factory use, need to be connected to pin84
Factory use, need to be connected to pin83
Factory use, need to be connected pin82
Factory use, need to be connected to pin81
Analog input channel (0 – 1.2V), needs to be pulled
down to AVSS if unused
Analog input channel (0 – 1.2V), needs to be pulled
down to AVSS if unused
Discrete programmable I/O
Discrete programmable I/O
Discrete programmable I/O
Analog input channel (0 – 1.2V), needs to be pulled
down to AVSS if unused
3.3V digital power
Analog input channel (0 – 1.2V
Digital common
Internal 1.8V output, Capacitor(s) to be connected
Discrete programmable I/O or Non-maskable Interrupt
input
Discrete programmable I/O or Interrupt 0 input
Discrete programmable I/O
Discrete programmable I/O
nd
Op amp output for 2 leg shunt resistor current
sensing of Fan motor, 0-1.2V range
nd
Op amp negative input for 2 leg shunt resistor current
sensing of Fan motor, 0-1.2V range
Table 20. Pin List
34
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© 2015 International Rectifier
February 20,2015
IRMCF588
9 Package Dimensions
35
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© 2015 International Rectifier
February 20,2015
IRMCF588
10 Part Marking Information
IR Logo
Part Number
Date Code
IRMCF588
YWWP
XXXXXX
Production Lot
Pin 1
Indentifier
Part Marking
11 Qualification Information
††
Qualification Level
Industrial
(per JEDEC JESD 47E)
Moisture Sensitivity Level
MSL3
(per IPC/JEDEC J-STD-020C)
†††
Machine Model
Class B
(per JEDEC standard JESD22-A114D)
Human Body Model
Class 2
(per EIA/JEDEC standard EIA/JESD22-A115-A)
ESD
RoHS Compliant
Yes
†
Qualification standards can be found at International Rectifier’s web site http://www.irf.com/
††
Higher qualification ratings may be available should the user have such requirements. Please contact
your International Rectifier sales representative for further information.
†††
Higher MSL ratings may be available for the specific package types listed here. Please contact your
International Rectifier sales representative for further information.
Note: Test condition for Temperature Cycling test is -40C to 125C.
Revision History
36
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© 2015 International Rectifier
February 20,2015
IRMCF588
Data and Specifications are subject to change without notice
IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105
TAC Fax: (310) 252-7903
Visit us at www.irf.com for sales contact information
37
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© 2015 International Rectifier
February 20,2015