IRMCS2031 [INFINEON]
Complete Sensorless Drive Design Platform iMOTION Development System; 完成传感器驱动设计平台的iMOTION开发系统型号: | IRMCS2031 |
厂家: | Infineon |
描述: | Complete Sensorless Drive Design Platform iMOTION Development System |
文件: | 总18页 (文件大小:180K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Data Sheet No. PD60223
Advance Information
IRMCS2031
Complete Sensorless Drive Design Platform
iMOTIONTM Development System
Features
Product Summary
Low cost complete AC sensorless drive design
platform
IRMCK203 IC for complete sensorless control
ꢀ
Speed operation range (typical)
5 to 100%
100,000rpm (2pole)
0.01%
High speed operation
ꢀ
ꢀ Simple design with IR2175 current sensing HVIC
Speed accuracy
230V/750W maximum output power with 600V/16A
ꢀ
advanced Plug-N-DriveTM IGBT module
ꢀ Wide speed range and high speed operation
ꢀ Support any permanent magnet AC motors
ꢀ Low loss/EMI Space Vector PWM
Speed resolution
15bit
PWM carrier frequency
Sensorless control computation time
Continuous output current
Overload output current
Maximum modulation index
Max RS232C speed
60 kHz max
10 usec
ꢀ No voltage feedback sensing
5 Arms (750W)
15 Arms (750W)
1.2
ꢀ Low cost A/D interface with multiplexer
ꢀ 4-channel D/A output for diagnostics/monitoring
ServoDesignerTM tool for easy operation
RS232C/RS422 and fast SPI interface
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
57.6 kbps
Parallel interface for microcontroller expansion
Over-current and ground fault protection
Over-voltage / Under-voltage protection
Optional RS422 communication
1Mbps
ꢀ Dynamic Braking control with brake IGBT/FWD
ꢀ Discrete I/Os (START/STOP, FAULT, FLTCLR, SYNC
ESTOP, PWMEN)
ꢀ Configuration data retention at power up/down
Description
IRMCS2031 is a complete sensorless drive design platform for industrial/appliance applications up to 1.0 HP output power.
The system contains the latest advanced motion control IC, IRMCK203, and the ServoDesignerTM software. The complete
B/Ms and schematics are provided so that the user can adapt and tailor the design per application needs. The system does
not requires any software code development due to unique Motion Control Engine implemented in the IRMCK203 IC. User
can readily evaluate high performance sensorless control without spending development effort usually required in the
traditional DSP or microcontroller based system. IRMCS2031 contains advanced iMOTION chipset such as IR2175 monolithic
current sensing ICs and IRAMX16A60A intelligent power module, which enable simple and cost effective motion control
design.
This document is the property of International Rectifier and may not be copied or distributed without expressed consent.
IRMCS2031
Overview
The IRMCS2031 is a design platform for a complete Sensorless drive system based on the IRMCK201 digital motion
control IC. The system is based on configurable control engine implemented by hardware logics in the IRMCK203.
The system has a simple and low cost structure, made possible by an advanced IR motion components including the
IRAMX16UP60A IGBT module, and IR2175 monolithic current sensing high voltage IC. These components together
with the IRMCK203 simplify hardware implementation. Since all control logic is implemented in hardware logic as
opposed to programmed software, unmatched parallel computation is achieved resulting in higher bandwidth control
and higher motor operating frequency (15 usec minimum PWM loop cycle).
Despite of hardware logic implementation, its design flexibility allows the user to configure Permanent Magnetic ac
motors (Sinusoidal Back EMF) with different motor parameters and different types of communication protocols.
AC Power
Analog
Monitor
EEPROM
Analog Speed
Reference
IRMCS2031
IRMCK203
select
A/D
4
A/D MUX
DC bus feedback
interface
channel
D/A
DC bus dynamic
brake control
BRAKE
RS232C
or
RS422
+
+
RAMP
Space
Dead
Vector
time
ejθ
-
-
Host
Register
Interface
+
-
PWM
Plug-N-DriveTM
IGBT module
Host
Controller
SPI
Interface
FAULT
IRAMY20UP60A
Configuration
Registers
Rotor Angle/
speed
Estimator
Parallel
Interface
Monitoring
Registers
Period/Duty
counters
IR2175
IR2175
ejθ
2/3
Period/Duty
counters
Motor
Figure 1. IRMCS2031 System Block Diagram
This document is the property of International Rectifier and may not be copied or distributed without expressed consent.
2
IRMCS2031
Safety Precautions
In addition to the precautions listed throughout this manual, you must read and understand the following statements
regarding hazards associated with AC servo development system.
ATTENTION: Some ground potential of the IRMCS2031 system is biased to a negative DC
bus voltage potential and kept high voltage potential while power is on. 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: The IRMCS2031 system contains high voltage capacitors which take time to
discharge after removal of main supply. Before working on drive system, ensure isolation of
mains supply from line inputs [R, S, T]. Wait three minutes for capacitors to discharge to safe
voltage levels. 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: 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.
!
ATTENTION: The IRMCS2031 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
!
This document is the property of International Rectifier and may not be copied or distributed without expressed consent.
3
IRMCS2031
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: The drive is intended to be commanded by control input that will start and stop
the motor. A device that routinely disconnects then reapplies input power to the drive for the
purpose of starting and stopping the motor should not be used. Failure to follow this guideline
may result in damage of equipment, and/or bodily injury or death.
ATTENTION: Do not connect power factor correction capacitors 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.
4
IRMCS2031
Debris When Unpacking
The IRMCS2031 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.
5
IRMCS2031
Hardware Installation
Check All Hardware
The following hardware pieces are contained in the IRMCS2031 system.
•
•
•
IRMCS2031 board with integrated heat sink
Serial RS232C cable with 9-pin Dsub connectors for ServoDesignerTM development tool
Two 10 m Ohms shunt resistors
Step 1.
Connect motor power and ground cables to the IRMCS2031 board.
Step 2.
Connect AC115V or single phase 230V or three phase 230V power. For single phase 100V-230V AC power, use R
and T for connection. For three phase 230V power, use R/S/T for connection. Insert a power contactor switch rated at
250V/30A in series with AC power cables.
B
P
R
S
T
U
J
Figure 2. Power Connector, J1
Step 3.
Connect motor power lead. Follow the color code connection below.
RED = U
WHITE = V
BLACK = W
Connect Earth Ground terminal to the heatsink.
IRMCS203
Earth Ground Wire
MOTOR
Figure 3. Earth Ground Connection
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IRMCS2031
Step 5. (Optional) J7 Connector, External I/O
Connect External I/O Connector (J7) as needed. All inputs are 5V tolerant.
Pin definition
Pin 1 : Analog input (+/-10V)
GND -10V +10V
User supplied
power supply
Pin 2: N/A (open)
Pin 3: N/A (open)
Pin 4: N/A
10k ohm
potentiometer
Pin 5: N/A
Pin 6: GND
Pin 7: FAULT status output (3.3V when FAULT)
Pin 8: SYNC status output (3usec width of active
low pulse at every carrier frequency period)
Pin 9: PWMEN status output (3.3V when PWM
active)
J7 Top View
GND
16
15
CALIB
START
Pin 10: +5V
FAULT Clear
STOP
5V
Pin 11: START input (high to activate)
Pin 12: STOP input (high to activate)
Pin 13: CALIB input (high to activate)
Pin 14: FAULT CLR input (high to activate)
Pin 15: N/A (open)
GND
Pin 16: GND
2
1
Figure 4. J7 Connector connection
Step 6. (Optional) J8 Connector, Analog Output monitoring
1
8
J8 Top View
Figure 5. J8 Connector connection
Pin Definition
Pin 1: Channel 1 Analog output (0-5V)
Pin 2: GND
Pin 3: Channel 2 Analog output (0-5V)
Pin 4: GND
Pin 5: Channel 3 Analog output (0-5V)
Pin 6: GND
Pin 7: Channel 4 Analog output (0-5V)
Pin 8: GND
Step 7.
Connect the RS232C cable between 9-pin D-sub connector and PC.
This document is the property of International Rectifier and may not be copied or distributed without expressed consent.
7
IRMCS2031
Installing the Software
The ServoDesignerTM tool is distributed on the CD-ROM. Load the CD into the CD-ROM drive on your PC and
double-click “IRMCS2031.exe”. It requires the password which also can be found in the same CD-ROM. The
automated procedure installs all necessary software on your PC. The default location for the installation is
“C:\Program Files\Accelerator”.
Power-On the System
Apply AC115V – AC230Vpower to the system.
Immediately after power-on, the power supply RED LED (located at the bottom left corner of the board) will light
indicating the on-board DC bus has been established. The second LED (surface mount LED located at the top side of
the board) should also start blinking on/off RED.
Getting Started
For quick start with preconfigured parameters, the following motor is supported with a preconfigured motor file.
•
Sanyo Denki motor (400W: type P30B06040DXS00M)
If any other motor is used, reconfiguration is required. Configurable parameters are required to tailor design to various
applications (motor and load). These configurable parameters can be modified via the host register interface (using the
ServoDesigner tool) through the communication interface. In the IRMCS2031 product, a design spreadsheet (Drive
parameters translator) is provided to aid the user for ease of drive start-up. Using the spreadsheet, the user enters
high-level parameters such as motor nameplate information, maximum application speed, current limit, speed and
current regulator bandwidth. This high-level user information is translated to engineering parameters (directly used
by the drive). Figure gives an overview of the commissioning steps. Please refer to the IRMCK203 Application
Developer’s Guide for detailed drive commissioning description.
Enter high level design parameters
(Motor nameplate, Current limits,
Max speed, overload etc..)
User
parameters
Drive Parameters Translator
Translate input parameters to drive parameters
Engineering
parameters
ServoDesigner
Input and download drive parameters
Refine drive parameters
IRMCS2031
Figure 6. Overview of Drive Commissioning
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8
IRMCS2031
Shunt Resistor and Current Rating
Two 20m Ohms current sensing shunt resistors are equipped as default resistors at factory shipment (R34 and R36
located on the bottom side of PCB). With these resistors, IRMCS2031 can deliver up to ±13A maximum peak
current to the motor including overshoot of current regulation.
When using any higher power motor with a rating greater than 3Arms and less than 6Arms continuous current, then
10m Ohm shunt resistors are recommended in place of the 20m Ohm shunt resistors.
This document is the property of International Rectifier and may not be copied or distributed without expressed consent.
9
IRMCS2031
RS232C connector
IRMCS2031 has one serial RS232C connector (J6) on the board. The connector is D-sub 9 pin standard PC female
connector and directly connectable to PC serial port. As shown in Figure 8, pin2 is send signal and pin3 is receive
signal, and both are 10V signal level. The baud rate is fixed at 57.6kbps. The signal format is 8bit, no parity, 1 stop
bit configuration.
J6
1
TX1
RX1
2
3
4
5
6
7
8
9
No connection
DB9RF
Figure 5. RS232C connector
RS-232 Register Access
The IRMCK203 includes an RS-232 interface channel that provides a direct connection to the host PC. The software
interface combines a basic "register map" control interface with a simple communication protocol to accommodate
potential communication errors. For more detailed information, please refer to IRMCx201 Application Development
Guide.doc
RS-232 Register Write Access
A Register write operation consists of a command/address byte, byte count, register data and checksum. When the
IRMCK203 receives the register data, it validates the checksum, writes the register data, and transmits and
acknowledgement to the host.
Command / Address Byte
Byte Count
1-6 bytes of register data
Checksum
Register Write Operation
Command Acknowledgement Byte
Checksum
Register Write Acknowledgement
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10
IRMCS2031
Bit Position
7
6
5
4
3
2
1
0
1=Read/
0=Write
Register Map Starting Address
Command/Address Byte Format
Bit Position
7
6
5
4
3
2
1
0
1=Error/
0=OK
Register Map Starting Address
Command Acknowledgement Byte Format
The following example shows a command sequence sent from the host to the IRMCK203 requesting a two-byte
register write operation:
0x2F
0x02
0x00
0x04
0x35
Write operation beginning at offset 0x2F
Byte count of register data is 2
Data byte 1
Data byte 2
Checksum (sum of preceding bytes, overflow discarded)
A good reply from the IRMCK203 would appear as follows:
0x2F
0x2F
Write completed OK at offset 0x2F
Checksum
An error reply to the command would have the following format:
0xAF
0xAF
Write at offset 0x2F completed in error
Checksum
RS-232 Register Read Access
A register read operation consists of a command/address byte, byte count and checksum. When the IRMCK203
receives the command, it validates the checksum and transmits the register data to the host.
Command / Address Byte
Byte Count
Checksum
Register Read Operation
Command Acknowledgement Byte
Register Data (Byte Count bytes)
Checksum
Register Read Acknowledgement (transfer OK)
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11
IRMCS2031
Command Acknowledgement Byte
Checksum
Register Read Acknowledgement (error)
The following example shows a command sequence sent from the host to the IRMCK203 requesting four bytes of read
register data:
0xA0
0x04
0xA4
Read operation beginning at offset 0x20 (high-order bit selects read operation)
Requested data byte count is 4
Checksum
A good reply from the IRMCK203 might appear as follows:
0x20
0x11
0x22
0x33
0x44
0xCA
Read completed OK at offset 0x20
Data byte 1
Data byte 2
Data byte 3
Data byte 4
Checksum
An error reply to the command would have the following format:
0xA0
0xA0
Read at offset 0x20 completed in error
Checksum
RS-232 Timeout
The IRMCK203 receiver includes a timer that automatically terminates transfers from the host to the IRMCK203 after
a period of 32 msec.
RS-232 Transfer Examples
The following example shows a normal exchange executing a register write access.
Host
FPGA
Write Request
Data...
Perform write operation
ACK (OK)
Request complete
The example below shows a normal register read access exchange.
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12
IRMCS2031
Host
FPGA
Read Request
Perform read operation
ACK (OK)
Data...
Request complete
The following example shows a register write request that is repeated by the host due to a negative acknowledgement
from the IRMCK203.
Host
FPGA
Write Request
Data...
Error in processing (e.g.,
bad checksum)
ACK (error)
resend
Write Request
Data...
Perform write operation
ACK (OK)
Request complete
In the final example, the host repeats a register read access request when it receives no response to its first attempt.
Host
FPGA
Read Request
…
time out, resend
Read Request
Perform read operation
ACK (OK)
Data...
Request complete
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13
IRMCS2031
SPI interface connector
IRMCS2031 has one SPI interface connector (J4) on the board. The connector is a 6pin header and its pin
assignement are shown below. The signal level is 3.3V with 5V tolerant input. Maximum transimission speed is
6MHz.
J4
MISO
SCLK
MOSI
SYNC
1
2
3
4
5
6
CS
HDR6
Figure 6 SPI interface connector
SPI Register Access
When configured as an SPI device read only and read/write operations are performed using the following transfer
format:
…………….
Data Byte N
Command Byte
Data Byte 0
Data Transfer Format
Bit Position
7
6
5
4
3
2
1
0
Read
Only
Register Map Starting Address
Command Byte Format
Data transfers begin at the address specified in the command byte and proceed sequentially until the SPI transfer
completes. Note that accesses are read/write unless the “read only” bit is set.
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14
IRMCS2031
Parallel Interface Port
IRMCS2031 provides a 8bit parallel interface port to facilitate microprocessor interface. Interface is generic and be
able to interface most common 8bit parallel interface such as MCS8051, some Motorola 8bit uP, MicroChp,etc. Figure
9 shows the connection diagram. The connector, J5, is an 2-by-10 header connector pins.
Each signal is 3.3V level and data bus is multiplexed. Table 1 summarizes each signal definition.
+3.3V_BB
J5
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
HP_Data0
HP_Data1
HP_Data2
HP_Data3
HP_Data4
HP_Data5
HP_Data6
HP_Data7
NA
NA
NA
NA
HP_nCS
HP_nWE
HP_nOE
HP_A
HDR2X10
Figure 7 Parallel Interface Port
Signal
HP_nCS
HP_nOE
HP_nWE
HP_A
I/O1 Description
I
Active low Host Port Chip Select
I
Active Low Host Port Output Enable
I
Active low Host Port Write Enable
I
Host Port Register Address. 1 = Address register, 0 = Data Register
Bidirectional Host Port data bus
HP_Data
I/O
Table 2. Microprocessor Interface Module Signal Definitions
Figures 10 and 11 show detailed timing requirements for register read and write operations depending on
the type of microprocessor (Intel or Motorola type). All values are in nanoseconds. The data bus output is
activated by the logical combination (!nCS && !nOE && new), which allows read and write operations to be
either nWe/nOE (Intel) or nCS (Motorola) driven. Figures 4 and 5 show example connections for Intel 8051
and Motorola 64K/Coldfire microprocessors.
Row
1
2
3
4
5
6
7
Name
Min
10
0
60
60
Max
Comment
C
C
C
C
C
D
D
TsuADDR
TsuData
Tpw_nCSnWE
ThData
ThAddr
Tacc
HP_A to HPnCS or HP_nWE (which ever occurs last) low setup time
HP_D to HPnCS or HP_nWE (which ever occurs last) low setup time
Minimum pulswidth for nCS and nWE
Minimum data hold time from HP_nWE or HPnCS (whichever occurs last) low
Minimum address hold time from HP_nWE or HPnCS (whichever occurs last) low
HP_nCS or HP_nOE (whichever occurs last) to Data access time
HP_nCS or HP_nOE (whichever occurs last) to Data invalid/Hi-
0
0
35
35
ThData
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15
IRMCS2031
TsuADDR
TsuData
ThAddr
HP_A
Tpw_nCSnWE
ThData
HP_nCS
HP_nWE
HP_nOE
Tacc
ThData
HP_DATA
Figure 8. Register Write/Read Timing (Intel)
Row
1
2
3
4
5
6
7
Name
Min
10
0
60
60
Max
Comment
C
C
C
C
C
D
D
TsuADDR
TsuData
Tpw_nCSnWE
ThData
ThAddr
Tacc
HP_A to HPnCS low setup time
HP_D to HPnCS low setup time
Minimum pulswidth for nCS
Minimum data hold time from HPnCS low
Minimum address hold time from HPnCS low
HP_nCS to Data access time
HP_nCS to Data invalid/Hi-Z
0
0
35
35
ThData
TsuADDR
TsuData
ThAddr
HP_A
Tpw_nCSnWE
ThData
HP_nCS
HP_nWE
HP_nOE
Tacc
ThData
HP_DATA
Figure 9. Register Write/Read Timing (Motorola)
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16
IRMCS2031
Specifications
TC=25°C unless specified
Parameters
Values
Conditions
Input Power
Voltage
115V-230Vrms, -20%, +10%
50/60 Hz
Frequency
Input current
Input line impedance
Output Power
kW
6A rms @nominal output
4%∼8% recommended
TA=40°C,RthSA=1.0 °C/W
750W continuous power
5 Arms nominal, 15 Arms Overload
3.3V logic level
Vin=230V AC, fPWM=8kHz, fO=60Hz,
TA=40°C,RthSA=1.0 °C/W
ZthSA limits ∆TC to 10°C during overload
Current
Host interface (SPI)
SCLK,CS,MISO,MOSI, SYNC
Galvanic isolated, maximum 6MHz
Host interface (RS232C)
10V
Maximum 57.6k bps, single ended,
configurable for RS422 up to 1Mbps
SND,RCV
Host interface (Parallel Port)
3.3V
8 bit parallel interface compatible with 8051,
Microchip,other uP.
HP_nCS,HP_nOE,HP_nWE,
HP_A,HP_DATA[8]
D/A
10 bit 4 Channel
A/D
0-5V output
Output are buffered with 4mA drive capability
4 channel additional input available (optional)
12 bit 2 channel
±10V for reference input, 5V for DCbus
input
Discrete I/O
Input
4 bit, START, STOP, FLTCLR, CALIB
3 bit, PWMACTIVE, FAULT, SYNC
5V tolerant, Isolated, Active High logic
Output
Current feedback
Current sensing device
Resolution
IR2175, direct interface
10 bit (7.5 nanoseconds counting
resolution )
133 MHz internal IRMCK203 clock
2175 PWM output (120 kHz)
Latency
8.3 usec
Protection
Output current trip level
Ground fault trip level
Over-temperature trip level
Short circuit delay time
DC bus voltage
Fixed by IRAM16XUP60A module
27.5A peak, ±10%
35A peak, ±10%
110°C, ±5%
Case temperature
line-to-line short, line-to-DC bus (-) short
2.5 usec
Maximum DC bus voltage
Minimum DC bus voltage
400V
85V
Should not exceed 400V for > 30 sec
VCC=15V ± 10%,VDD=5V ± 5%
Power Module
IRAMX16UP60A
3-phase HVIC
6 IGBT/FRED + IR2136 gate driver,
integrated overcurrent/overtemp
protection
Bootstrap power supply for high side circuit
System environment
Ambient temperature
95%RH max. (non-condensing)
0 to 40°C
Table 1. IRMCS2031 Electrical Specification
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17
IRMCS2031
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
January 6, 2004
Sales Offices, Agents and Distributors in Major Cities Throughout the World.
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18
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