Motor Control Systems and Design - Analog Devices

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Analog Devices Products and Signal Chain Solutions

MOTOR CONTROL SYSTEMS AND DESIGN

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2

Motor Control Systems and Design

Analog Devices’ Motor Control Mission Statement ADI is positioned to deliver the most innovative motor control market solutions that offer the best in system efficiency, reliability, and connectivity by focusing its efforts on the highest system performance and industry-leading integration. With ADI’s extensive motor control system-level knowledge and strategic technology partner alliances, ADI will be able to provide customers with unique system services and products leading the way to becoming a long-term technology partner.

Table of Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Typical Motor Control Systems with Functional Descriptions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Digital Isolation with i Coupler® Technology

Processors Mixed-Signal Control Processors. . . . . . . . . . . . . . . . . . . . . . . . . . 11 DSPs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

Standard Linear Products

Isolated Gate Drivers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

Current Sense Amplifiers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

Isolated Σ-Δ Modulators. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

Difference Amplifiers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

Standard Data Isolators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

Precision Op Amps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

Isolated Communications Transceivers . . . . . . . . . . . . . . . . . . . . . . . 6

Precision Voltage References. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

isoPower® Integrated, Isolated DC-to-DC Converters . . . . . . . . . . . . 7

Low Noise MEMS Accelerometers. . . . . . . . . . . . . . . . . . . . 15

Power Management

Motor Control Development Platform. . . . . . . . . . . . . . . . 16

Digital Power Factor Correction Controller. . . . . . . . . . . . . . . . . . . . . 8

Isolated Inverter Platform . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

High Speed MOSFET Drivers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

FlexMC Universal AC Kit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

Switching/Multirail Regulators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Linear Regulators. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

Position and Current Sense Feedback Simultaneous Sampling ADCs . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Resolver-to-Digital Converters. . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

FlexMC Low Voltage Kit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 AD-FMCMOTCON2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

17

Reference Designs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 Model-Based Design. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 Motor Control Architectures and Solutions. . . . . . . . . . . 20 Strategic Partnerships and Alliances. . . . . . . . . . . . . . . . . 22 Online Tools and Resources. . . . . . . . . . . . . . . . . . . . . . . . . . 23



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Introduction More Stringent Energy Regulations Drive Motor Control Innovations In today’s expanding industrial marketplace, the demand for electrical power is growing at an unprecedented rate. More than 40% of that electrical demand comes from industrial electric motors of all sizes. Because of that phenomenon, governments and certification agencies worldwide are introducing new regulatory legislation and more stringent energy efficiency requirements on electric motor OEMs and end users. Like many great technological innovations, there needs to be a pressing demand in the market for change. Analog Devices recognized years ago that this new era of smarter and highly efficient motor control systems would be the new standard for the motor control industry. As part of that recognition, ADI embarked on an integrated and comprehensive motor control design program in collaboration with our strategic partners, who are experts in their respective fields (MathWorks,® ARM,® Boston Engineering,® IAR Systems,® and Xilinx®), aimed at addressing the entire system architecture to achieve the greatest level of efficiency while improving system accuracy and reliability. By taking a system-level view (see Figure 1) of these new challenges, ADI was able to develop products that not only exceeded the individual performance specifications but also represented the optimal interface between other functional blocks of the circuit. This system solution approach enables ADI to offer industrial-based customers a completely integrated solution that fits their specific needs while helping them meet the new, more stringent energy regulations. Live Circuit

VDC PFC

EMI

IGBT Module

PWM (6)

CDC

HE Sensors

Shunt Sensors

G D

ADP3634

100 V TO 250 V

Current Feedback Options

I V , IW

TC

Position Feedback Options PMSM Motor 0.5 hp

5V_ISOW

VAC Inrush 15 V_ISO

ADP7102

3 V3_ISO

5V

ENPWM

ADuM1310

ADuM1310

I 2C

ADuM1401

ADM708 ADM3053

GPIO

UART SINC 3 V3

Power

ARM Cortex®-M4

Reset CAN

ADSP-CM408F

ADC

QEP

Mux

ADP2118

PWM

SPI

Figure 1. Complete system-level motor control solution capabilities.

ADSP-CM408F motor drive control board (EZ-KIT®).

B Z

S C

AD8662

ADN4662 AD8515

TRIP

ADM3252

A

Trip

AD8515

ADuM1250

ADM2682

CAN

ADuM5000

ADCMP600

AD7417

RS-485 RS-232

AD7403

AD8515 5 V_ISO ENPFC

ADP121

ADA4897

IDC

ENC

E

IAC

AD8515 VDC ADP1047

RES

Motor drive power board.

For additional information, visit analog.com/motorcontrol.

AD2S1210

Feedback Selection

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Motor Control Systems and Design

Typical Motor Control System Offering Inverter

VDC

U V

+

AC Line

W

AC Motor I V, I W

𝛉, 𝛚

I DC

TD

Gate Drive

Motor Control

PWM

Command

Feedback Interface

I/F

System and Communications





ARM Cortex-M4/SHARC® Processor Used as Motion Controllers Best-in-Class Performance and Integration

iCoupler Isolation Technology Offers Complete Deployment of Different Gate Driver and Isolation Technologies

Motion Controller

Gate Driver

Power Stage Voltage Monitoring

Demand Interface



ADI Has Market Leadership in Converters and Amplifiers



Current and Voltage Monitoring Required in Servos and Performance Drives

Current Monitoring



Network Interface 



Rotor/Load Position Feedback

Our Interface Products Include: CAN, RS-232, and RS-485

Power and Support

  

High Resolution Feedback Sensors Provide Accurate Shaft Position Information



ADI Offers RDCs, ADCs, and Amps Suitable For Motor Control



ADI’s Power Management Products Are Broadly Applicable Within Motor Control Systems Large Portfolio of Power Management Products

DSP EZ-KIT Lite® Evaluation Boards Simulink® Tools Integration Motor Control Development Platform for Model-Based Control

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Digital Isolation with i Coupler Technology

Inverter

VDC

The i Coupler Transformer Isolation Advantage

isoPower

XX

Smaller size

XX

Integrate with other functions

XX

Lower cost at high performance

XX

isoPower

XX

Lower power consumption

XX

Higher reliability

Isolated Gate Drive

I DC Gate Drive

Safety and Standards

PWM

XX

1200 VPEAK working voltage

XX

Guaranteed 8 mm creepage

• VDE-0884-10

XX

Basic and functional safety

• VDE-0884-11

• IEC 60664

• IEC 60747-5-5

• IEC 61800-5-x

• UL 1577

XX

Reinforced isolation I/F

Isolated gate drivers provide electrical isolation as well as strong gate drive capability, which is often required for safety and robustness in many system architectures. The isolated gate driver portfolio from Analog Devices offers designers performance and reliability advantages over designs utilizing optocouplers or pulse transformers. Utilizing ADI’s proven iCoupler technology, the isolated gate driver family offers the advantage of a maximum propagation delay of 50 ns, less than 5 ns channel-to-channel matching, a 50-year lifetime for 400 V rms working voltage, and galvanic isolation in a single package.

ADuM41351 ADuM42232 ADuM3223 ADuM3221 ADuM3220 ADuM7223 ADuM7234

Max Operating Temperature (°C) 125 125 125 125 125 125 105

Isolated Output (V) Max 30 18 18 18 18 18 18

Isolated Output (V) Min 12 4.5 4.5 4.5 4.5 4.5 12

1 ISOINV-EP Evaluate ADI’s new, fully featured isolated gate drivers (ADuM4135) technology in a system-level application at realistic dc bus voltages (EV-MCS-ISOINVEP-Z). 2 ISOINV Evaluate ADI simple dual isolate gate driver (ADuM4223) technology in a system-level application at realistic dc bus voltages (EV-MCS-ISOINV-Z).

Isolated Σ-Δ Modulators—Voltage and Current Sensing The high performance AD7403 isolated Σ-Δ modulator enables more accurate current and voltage sense feedback. Wider dynamic range enables the use of smaller shunts, improving system efficiency and motor to drive matching. Superior modulator performance coupled with an external clock of 20 MHz provides flexibility in performance/latency trade-offs in applications such as robotics where dynamic response is important. The AD7403 also features an isolation scheme with a higher continuous working voltage (VIORM) than the previous generation and is offered in packages providing 8.3 mm creepage and clearance. Part Number AD7400A AD7401A AD7403 AD7402 AD7405

Clock (MHz) 10 (int) 20 (ext) 20 (ext) 10 (int) 20 (ext) LVDS

VIORM (VPEAK) 891 891 1250 1250 1250

Motor Control

ADC

Data Isolation Feedback Interface

Isolated Communication Interfaces

Overcoming Limitations of Optocouplers and High Voltage Gate Driver Solutions

Insulation Rating (kV rms) 5 5 3 2.5 2.5 2.5 1

TD Isolated Feedback

System and Communications

Isolated Gate Drivers

Part Number

I V, I W

Package 16-lead SOIC_W 16-lead SOIC_W 16-lead SOIC_IC, 8-lead SOIC_IC, 8-lead SOIC_IC 16-lead SOIC_IC

For additional information, visit analog.com/i Coupler.

Tx/Rx isoPower

5

Motor Control Systems and Design

Standard Data Isolators Digital Isolators Deliver Peak Performance Without Compromise

Insulation Rating (kV rms)

Max Data Rate (Mbps)

Max Operating Temperature (°C)

1

2.5, 3

Up to 150

Up to 125

Channel Count

Digital isolators with iCoupler technology enable designers to implement isolation in designs without the cost, size, power, performance, and reliability constraints found with optocouplers. With more than one billion channels shipped into the field, these magnetically isolated products are a safe, reliable, and easy to use alternative to optocouplers. The new family of robust iCoupler digital isolators incorporate on-off keying (OOK) architecture, providing the best combination of signal reliability and performance with the highest available noise immunity, lowest EMI, and highest surge capability for applications in noisy, harsh, and unpredictable environments.

2

2.5, 3.75, 5

Up to 150

Up to 125

3

2.5

Up to 150

Up to 125

4

2.5, 3.75, 5

Up to 150

Up to 125

5

1, 2.5

10

105

6

1

25

105

Digital Isolator Solution

Optocoupler Solution Avago Recommended Interface Circuit C2

R1 D1

C1

R2

C2

HCPL-0631

R5

D2 R6

ADuM1401 HCPL-0601 25 mm

Data Converter

D4

R3

Data Converter

R7 C1 HCPL-0601

16 mm

R4

C3 R8

D3

17 mm

Isolated RS-485 Transceivers for Intersystem Communication in Motor Control

Power Supply (VNOM )

ADM2682E

5

15

16 Mbps

3.3, 5

ADM2687E

5

15

500 kbps

3.3, 5

ADM2582E

2.5

15

16 Mbps

3.3, 5

ADM2587E

2.5

15

500 kbps

3.3, 5

V ISOIN

Rectifier

Regulator

Digital Isolation iCoupler

Y

Transceiver Decode

Encode

Decode

Decode

Encode

D

Z

Encode

A

Data Rate RS-485

Oscillator

R

B

ESD Protection (kV)

isoPower DC-to-DC Converter

TxD

Insulation Rating (kV rms)

VISOOUT

DE

Part Number

V CC

RxD

These isolated transceivers integrate Analog Devices i Coupler technology to combine a 3-channel isolator, a three-state differential line driver, a differential input receiver, and Analog Devices iso Power dc-to-dc converter into a single package. The devices are powered by a single 5 V or 3.3 V supply, realizing a fully integrated signal and power isolated RS-485 solution. The parts are fully specified over the industrial temperature range and are available in a highly integrated, 16-lead, wide-body SOIC package with >8 mm creepage and clearance. These devices enable designers to isolate communications in design without the cost, size, power, and reliability constraints found with traditional isolation products.

RE

6

10 mm



GND1

Isolation Barrier

For additional information, visit analog.com/i Coupler.

GND2



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isoPower Integrated, Isolated DC-to-DC Converters These isolated dc-to-dc converters expand ADI’s isolated power portfolio by providing designers with a compact, easy to implement, cost-effective approach to meet both isolated power and data requirements. The combination of size and output power also addresses the growing space and power constraints engineers must consider when designing motor drives.

Part Number

Insulation Rating (kV rms)

Max Data Rate (Mbps)

Propagation Delay (ns)

Isolated Output Supply (mA)

Isolated Output (V) Min

ADM3260

2.5

1

95

30

4.5

ADuM5000

2.5





100

3.3

ADuM5200

2.5

25

60

100

3.3

ADuM5400

2.5

25

60

100

3.3

ADuM6000

5





100

3.3

ADuM6200

5

25

60

100

3.3

ADuM6400

5

25

60

100

3.3

The iso Power Difference

NEW DC-to-DC module.

isoPower solution.

Optocoupler design.

For additional information, visit analog.com/i Coupler.

Nonisolated Interface Devices Analog Devices offers a wide range of RS-232, RS-422, and RS-485 transceivers to suit many applications. The RS-232 specification allows for reliable data transmission from one transmitter to one receiver at data rates of up to 20 kbps over relatively short distances (up to 50 feet). On more recent RS-232 transceiver chips, data rates of up to 1 Mbps are achievable over shorter distances (up to 5 feet). The RS-485 specification meets the requirements for a truly multipoint communications network, while the RS-422 specification satisfies simplex multidrop standards.

For additional information, visit analog.com/interface/rs.

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8

Motor Control Systems and Design

Power Management Digital Power Factor Correction (PFC) Controller The ADP1047 and ADP1048 are PFC controllers with accurate input power metering capabilities built in. They provide accurate measurement, such as input and output voltage, input current, and power. The information can be reported to the microcontroller of the power supply via the PMBus interface.

Part Number

Description

ADP1047

Single-phase PFC controller with accurate power metering

VIN (V)

Key Features Inrush control, real-time efficiency optimization, enhanced dynamic response, synchronization, and spread spectrum

Interleaved PFC controller with accurate Inrush control, real-time efficiency power metering; capable optimization, enhanced dynamic ADP1048 of supporting high response, synchronization, spread efficiency bridgeless spectrum, and light load shedding topology

Interface EEPROM

PWM Outputs

Housekeeping I/O

Protection

Package

3.3

I2C/PMBus

Yes

2

PSON, inrush Programmable control, ACOK, ac fault detection, PGOOD OCP, OVP, OTP

24-lead QSOP

3.3

I2C/PMBus

Yes

2

PSON, inrush Programmable control, ACOK, ac fault detection, PGOOD OCP, OVP, OTP

24-lead QSOP

High Speed MOSFET Drivers The ADP36xx family of 2 A and 4 A high speed FET drivers complement the ADP1047/ADP1048 digital PFC controllers. These devices use a standard industry footprint but add faster switching performance and advanced protection features. Description

VIN (V)

Peak Drive Current (A)

Precision Enable/Shutdown

OT Protection

OT Warning Signal

Package

Dual noninverting

4.5 to 18

4

No

No

No

8-lead MSOP_EP 8-lead SOIC_N_EP

ADP3633/ADP3634/ADP3635 ADP3623/ADP3624/ADP3625

Dual inverting (33), dual noninverting (34), inverting/noninverting (35)

9.5 to 18 4.5 to 18

4

Yes

Yes

Yes

8-lead MSOP_EP 8-lead SOIC_N_EP

ADP3629/ADP3630/ADP3631

Dual inverting (29), dual noninverting (30), inverting/noninverting (31)

9.5 to 18

2

Yes

Yes

Yes

8-lead MSOP_EP 8-lead SOIC_N

Part Number ADP3654

For additional information, visit analog.com/power.



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Integrated Regulators Devices Delivering Best-in-Class Efficiency, System Performance, and Size ADI regulator products for motor control offer a selection of power integrated point of load (POL) devices supporting a wide range of power distribution options. This includes standalone switch regulators with 5 V, 12 V, and 24 V process to multirail solutions that support load requirements from the milliamperes to multiple ampere loads while maintaining effective efficiency and performance; to linear regulators offering low noise solutions that help increase precision in fine position sensing applications.

Switching/Multirail Regulators Part Number ADP2119 ADP2120

ADP2164

ADP230x

ADP2370

ADP2384

VIN Range (V)

Product Description

1.2 MHz synchronous step2.3 to 5.5 down dc-to-dc regulator 1.2 MHz synchronous step2.3 to 5.5 down dc-to-dc regulator High efficiency synchronous step-down dc-to-dc regulator with selectable switching 2.7 to 6.5 frequency (600 kHz or 1.2 MHz) Nonsynchronous step-down switching regulator 1.2 MHz/600 kHz low quiescent current step-down dc-to-dc regulator Synchronous step-down dc-to-dc regulator with programmable switching frequency

3.0 to 20

IOUT Max (A) 2

Part Number

Product Description

1.25 ADP2441

ADP2300/ ADP2301: 1.2, ADP2302: 2, ADP2303: 3

3.2 to 15

0.8

4.5 to 20

4

IOUT Max (A)

4.5 to 20

6

4.5 to 36

1

Synchronous step-down dc-to-dc regulator with programmable switching frequency Synchronous step-down dc-to-dc regulator with adjustable switching frequency 300 kHz to 1 MHz

ADP2386

4

VIN Range (V)

Switches: 3-channel regulator with dual 2.3 to 5.5, 3 MHz switching regulator and LDO: one LDO 1.7 to 5.5 Switches: 4-channel regulator with dual 2.3 to 5.5, 3 MHz switching regulator and LDOs: dual LDO 1.7 to 5.5

ADP5024

ADP5134

5-channel integrated power solution with quad step-down synchronous switching regulators and one LDO

ADP5052

Switches: 4.5 to 15, LDOs: 1.7 to 5.5

Switches: 1.2 each, LDO: 0.300 Switches: 1.2 each, LDOs: 0.300 Switches: 4, 4/1.2, 1.2, LDO: 0.200

ADP5134 Micro PMU Advantages

0402 Chip Resistor

0402 Chip Capacitor

0402 Chip Resistor

0402 Chip Resistor

0402 Chip Capacitor

0402 Chip Capacitor

0402 Chip Capacitor

0402 Chip Capacitor

0402 Chip Resistor

ADP5134 4-Channel Micro PMU

0806 Chip Inductor

0402 Chip Capacitor

0402 Chip Capacitor

6.8 mm

0806 Chip Inductor

0603 Chip Capacitor

0603 Chip Capacitor 0402 Chip Capacitor

300mA LDO 5-Lead SOT-23

0402 Chip Resistor

0402 Chip Resistor

0402 Chip Resistor

0402 Chip Resistor

10.6 mm

0402 Chip Resistor

0402 Chip Resistor

300 mA LDO 5-Lead SOT-23

0402 Chip Capacitor

0402 Chip Resistor

0402 Chip Resistor

0402 Chip Resistor 0402 Chip Resistor

0806 Chip Inductor

0603 Chip Capacitor

0402 Chip Resistor

0603 Chip Capacitor

800 mA Buck 5-Lead SOT-23

0806 Chip Inductor

Micro PMU Implementation

0603 Chip Capacitor

0603 Chip Capacitor

800 mA Buck 5-Lead SOT-23

0402 Chip Capacitor

10.4 mm

Traditional Implementation

25% Less Board Space Required

0402 Chip Resistor

9.3 mm

Linear Regulators Product Description

VIN Range (V)

IOUT Max (A)

Low noise, high PSRR LDO

2.3 to 6.5

0.5/1.0/2.0

Part Number

Product Description

VIN Range (V)

IOUT Max (A)

ADP151

Ultralow noise CMOS linear regulator

2.2 to 5.5

0.2

ADP7102/ADP7104

Low noise CMOS LDO

ADP7102: 0.300, 3.3 to 20 ADP7104: 0.500

ADP7105

Low noise CMOS LDO with soft start

3.3 to 20

0.5

ADP7118

Low noise CMOS LDO

2.7 to 20

0.2

ADP222/ADP223/ ADP224/ADP225

Dual, low noise, high PSRR linear regulators

2.5 to 5.5

0.300 each

ADP7142

Low noise, high PSRR CMOS LDO

2.7 to 40

0.2

ADP322/ADP323

Triple, low noise, high PSRR linear regulators

2.5 to 5.5

0.200 each

ADM7150

Ultralow noise, high PSRR LDO

4.5 to 16

0.8

ADP7182

Low noise, negative linear regulator

–2.7 to –28

–0.200

Part Number ADM7170/ADM7171/ ADM7172 ADP124/ADP125

Low quiescent current CMOS 2.3 to 5.5 linear regulator

0.5

9



10 Motor Control Systems and Design

Position and Current Sense Feedback Simultaneous Sampling ADCs Current, Voltage, and Position Sensing Products ADI offers an extensive portfolio of simultaneous sampling ADCs incorporating high performance, resolution, and accuracy with multiple channel combinations that serve a variety of motor control feedback and sensing needs. Small packaged dual devices are ideal for position sensing applications such as robotics or for current sensing in space constrained IDMs. Bipolar input devices suit current and voltage feedback in high power applications. Multichannel devices suit the topologies of multiaxis designs while fast conversion times offer low latency resulting in fast dynamic response. Part Number

No. Simultaneous Channels

Total Channel Count

Sample Rate/ Sim Channel

Resolution (Bits)

AD7265/AD7266

2

12

1 MSPS/ 2 MSPS

12

AD7262/AD7264

2

2

1 MSPS

12/14

AD7352/AD7356/ AD7357

2

2

3 MSPS/ 5 MSPS/ 4.75 MSPS

10 to 16

6

6

250 kSPS

16/14/12

8/6/4

8/6/4

200 kSPS

16

8

8

200 kSPS

14/18/18

2

4

1 MSPS

12/14

8–8

8

500 kSPS to 125 kSPS

16

2

2

1 MSPS

16

AD7656-1/ AD7657-1/ AD7658-1 AD7606/ AD7606-6/ AD7606-4 AD7607/AD7608/ AD7609 AD7366/AD7367 ADAS3023 AD7902/AD7903

For additional information, visit analog.com/SimultaneousSamplingADCs

Resolver-to-Digital Converters Many motor control systems operate at variable shaft rotation speeds. To provide the most accurate position information, a system with flexible resolution is required. The resolver-to-digital converter that provides resolution change on-the-fly is the AD2S1210. This converter delivers an integrated solution including an excitation oscillator with programmable frequency, programmable threshold levels, very wide analog input range, and information indicating the exact nature of detected faults. The AD2S1210 provides a high level of functionality required to interface to resolvers with a reduced number of external components. Part Number AD2S1200

Resolution (Bits)

Accuracy (Arcmin)

Max Tracking Rate (rps)

12

11

1000

AD2S1205

12

11

1250

AD2S1210

10 to 16

2.5

3125

For additional information, visit analog.com/RTD-ADCs.



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Processors Processor Value

System Value

Out of Box Experience

XX

ARM and DSP cores

XX

Embedded sinc filters for isolated Σ-Δ

XX

Strong DMA capability

XX

High amount of local RAM and flash

XX

230 VAC and 48 VDC development platforms

XX

Real-time Ethernet (1588)

XX

Fast embedded 16-bit ADCs

XX

Strong local support team

XX

High performance/cost ratio

XX

Support of MATLAB® and model-based design

Motor Control ASSPs—ADSP-CM40x Mixed-Signal Processors for High End Drive and Servo Control ADSP-CM40x mixed-signal processors offer control processing performance combined with high speed, high accuracy analog-to-digital conversion aimed at the needs of next-generation industrial motor drives and servos. Based on the ARM Cortex-M4, the ADSP-CM40x combines industry-leading 240 MHz core clock speed, large 384 kB SRAM, and 2 MB flash memories with industry-leading dual 16-bit ADCs. In addition to its raw digital and analog performance capabilities, the ADSP-CM40x offers a number of features including sinc filters for glueless connection to AD740x Σ-Δ modulators and a harmonic analysis engine for power spectrum analysis. Model ADSP-CM409CBCZ-AF ADSP-CM408CSWZ-AF ADSP-CM408CSWZ-BF ADSP-CM407CSWZ-AF ADSP-CM407CSWZ-BF ADSP-CM403CSWZ-CF ADSP-CM403CSWZ-EF ADSP-CM403CSWZ-FF ADSP-CM402CSWZ-EF ADSP-CM402CSWZ-FF

Package 19 mm × 19 mm, 212-ball CSP_BGA 24 mm × 24 mm, 176-lead LQFP 24 mm × 24 mm, 176-lead LQFP 24 mm × 24 mm, 176-lead LQFP 24 mm × 24 mm, 176-lead LQFP 14 mm × 14 mm, 120-lead LQFP 14 mm × 14 mm, 120-lead LQFP 14 mm × 14 mm, 120-lead LQFP 14 mm × 14 mm, 120-lead LQFP 14 mm × 14 mm, 120-lead LQFP

Speed (MHz) 240 240 240 240 240 240 150 100 150 100

SRAM/Flash 384 kB/2 MB 384 kB/2 MB 384 kB/2 MB 384 kB/2 MB 384 kB/2 MB 384 kB/2 MB 128 kB/512 kB 128 kB/256 kB 128 kB/512 kB 128 kB/256 kB

PLL and Power Management

Fault Management

Event Control

AFE Timer Σ Sinc3 Trip

Dual ADC Accuracy (ENOB) 13 13 13 11 11 13 13 13 11 11

Peripherals

System Watchdogs

1× TWI/I2C 4× Quadrature Enclosure 12× PWM Pairs

16 kB L1 Instruction Cache

L1 Memory

8× Timer

Up To 384 kB Parity-Eenabled Zero-Wait-State SRAM

2× CAN

3× UART Cortex-M4 2× SPI

2× Sport

System Fabric

1× EMAC with IEEE 1588 (Optional) L3 Memory Up to 2 MB Flash (Executable)

Analog Front End ADCC

DACC

Harmonic Analysis Engine (HAE) Hardware Functions

2× ADC (16-Bit)

2× DAC

Static Memory Controller ASYNC Interface

Sinc Filters USB FS OTG (Optional)

For additional information, visit analog.com/ADSP-CM40x.

GPIO (40 OR 91)

L1 Cache

Microcontroller

ADC

Sync

System Control Blocks JTAG, SWD, CoreSight™ Trace

Motor Control

PWM

Comms USB, Ethernet USB, Ethernet USB USB, Ethernet USB None None None None None

11



12

Motor Control Systems and Design

ADSP-214xx SHARC Floating-Point DSPs for Motion Controllers and High End Drive and Servo Control The SHARC® processor family dominates the floating-point DSP market with exceptional core performance, memory size, memory performance, and cost per MFLOP. As the fourth generation of SHARC 32-bit floating-point DSPs, the ADSP-214xx continues the legacy with unparalleled performance and features. The ADSP-214xx processors incorporate up to 800 MMACs of performance, 5 MB of on chip memory, FFT/FIR/IIR accelerators, and a host of external memory interfaces and peripherals that make these processors well suited for motion controllers and high end motor drive and servo systems. Model ADSP-21469BBCZ-3 ADSP-21489BSWZ-3A ADSP-21489BSWZ-3B ADSP-21489BSWZ-4A ADSP-21489BSWZ-4B ADSP-21488BSWZ-3A ADSP-21488BSWZ-3B ADSP-21488BSWZ-4A ADSP-21488BSWZ-4B

Speed (MHz) 450 350 350 400 400 350 350 400 400

Package 24 mm × 24 mm, 176-lead LQFP 14 mm × 14 mm, 100-lead LQFP 24 mm × 24 mm, 176-lead LQFP 14 mm × 14 mm, 100-lead LQFP 24 mm × 24 mm, 176-lead LQFP 14 mm × 14 mm, 100-lead LQFP 24 mm × 24 mm, 176-lead LQFP 14 mm × 14 mm, 100-lead LQFP 24 mm × 24 mm, 176-lead LQFP

On-Chip SRAM (MB) 5 5 5 5 5 3 3 3 3

GPIOs 34 32 34 32 34 32 34 32 34

Parallel Interfaces DDR2, AMI, link ports — SDRAM — SDRAM — SDRAM — SDRAM

Accelerators FFT/FIR/IIR FFT/FIR/IIR FFT/FIR/IIR FFT/FIR/IIR FFT/FIR/IIR FFT/FIR/IIR FFT/FIR/IIR FFT/FIR/IIR FFT/FIR/IIR

Low Power SHARC Floating-Point Processor Model ADSP-21477BCPZ-1A

Speed (MHz) 200

Package 88-lead LFCSP

On-Chip SRAM (MB) 2

5 Stage Sequencer

DAG1/2

Timer

PEX

PEY

JTAG

Thermal Diode

Block 0 RAM/ROM

DMD 64-Bit

DMD 64-Bit

Block 1 RAM/ROM

B0D 64-Bit

Core Bus Cross Bar

Block 2 RAM B2D 64-Bit

B1D 64-Bit

PMD 64-Bit

IOD0 32-Bit

IOD1 32-Bit

FIR IIR

IODO Bus

FFT FIR DTCP/ MTM IIR

S/PDIF PCG ASRC PDAP/ SPORT Tx/Dx A–D 3–0 IDP 7–0 7–0

DPI Routing/Pins

B3D 64-Bit

EPD Bus 64-Bit

Peripheral Bus

Core PCG TIMER TWI SPI/B UART Flags C–D 1–0

Block 3 RAM

Internal Memory I/F

PMD 64-Bit

Peripheral Bus 32-Bit

DPI Peripherals

Power @ 50 MHz 50 mW

Internal Memory

SIMD Core Instruction Cache

FLAGX/IRQX/ TMREXP

Interface SDRAM, AMI, PWM

EP

SPEP BUS Link MLB Port 1–0

DAI Routing/Pins

Core PWM Flags 3–0

AMI

External Port Pin Mux

DAI Peripherals

DDR2 CTL

External Port

Peripherals

ADSP-SC58x Multicore SHARC+ ARM System on Chip (SOC) The new ADSP-SC58x processor family complements the SHARC+® cores and DSP accelerators with the addition of an ARM® Cortex-A5 processor to deliver 24 giga-floating operations per second performance at under 2 W at high temperature. For highly complex, multiaxis motor control applications, the task-sharing architecture allows the SHARC cores to focus on the highest precision algorithms for motor control, and the ARM core on time-sensitive handling of the network stack. In addition, it contains safety features such as memory protection and divergent cores to meet the higher SIL ratings required for the new systems. Model ADSP-SC582 ADSP-SC584 ADSP-SC587 ADSP-SC589 ADSP-21584 ADSP-21587

Package 349-ball BGA 349-ball BGA 529-ball BGA 529-ball BGA 349-ball BGA 529-ball BGA

Speed (MHz) 450 450 450 450 450 450

ARM Core 1 1 1 1 — —

SHARC+ Cores 1 2 2 2 2 2

Interface USB, Gbit ETH, DDR, 80 GPIO USB, Gbit ETH, DDR, 80 GPIO 2 USB, 10/100 ETH, Gbit ETH, 2 DDR, 102 GPIO 2 USB, 10/100 ETH, Gbit ETH, 2 DDR, PCIe, 102 GPIO USB, Gbit ETH, DDR, 80 GPIO 2 USB, 10/100 ETH, Gbit ETH, 2 DDR, 102 GPIO

For additional information, visit analog.com/DSP.



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Standard Linear Products Current Sense Amplifiers Current sense amplifiers are used when a shunt resistor is placed in the high side or low side and high accuracy over temperature is required in harsh environments. In motor control, normally the bidirectional capability will be needed. In order to build fast and accurate control loops, the step response time and common-mode voltage step immunity are critical. V+ IU 3-Phase PWM Generator

IV M IW GND

–IN GND REF2 NC

AD8207 AD8210 AD8418

+IN

–IN

REF1

GND

V+

REF2

OUT

NC

AD8207 AD8210 AD8418

+IN REF1 V+ OUT

ADC Microcontroller

Part Number AD8205/AD8206 AD8207 AD8216 AD8218 AD8417/AD8418 AD8210 AD8214 AD8212

Input CMV (V) –2 to +65 –4 to +65 0 to 65 4 to 80 –2 to +70 –2 to +65

Gain (V/V) 50/20 20 3 20 60/20 20

5 to 65

Comparator

+500 (ext pnp)

Bandwidth (kHz) 50/100 100 3000 500 250 500 Propagation delay 90 ns typ

Max TCVOS (μV/°C) 15 1 20 0.5 0.5 8

1 MHz (G = 10)

Adjustable gain

Current sense amplifier.

Zero drift Fast output response Zero drift, low cost Zero drift, low cost High precision



Current output

10

High common-mode voltage

AD8210

Difference amplifier.

Comments

AD8214

Threshold detector.

For additional information, visit analog.com/amplifiers.

13



14 Motor Control Systems and Design

Difference Amplifiers Difference amplifiers can be used for voltage and current sensing in motor control systems because they can reject very high common-mode voltage. They will enable the low voltage converters to interface with the high voltage industrial environment. This is especially true when functional isolation is needed. Excellent drift and CMRR are the advantages of ADI’s difference amplifiers. CMV (±V) 600 270 120

Part Number AD8479 AD629 AD628

CMRR (dB) Min 90 86 75

Gain Drift (ppm/°C) Max 5 10 5 no external

Gain 1 1 0.1 to 100 adj

VOS Drift (μV/°C) Max 10 10 8 no external

There are other cases that will need attenuation and/or level shifting in the signal conditioning. In industrial sites, anything higher than the power supply common-mode voltage will be seen by these difference amplifiers. CMV (±V) –12.3 to +12 −2 (VS + 0.1) to +2 (VS − 1.5) −3 (VS + 0.1) to +3 (VS − 1.5) 3 (–VS) + 4.5 to 3 (+VS) – 4.5

Part Number AD8275 AD8276/AD8277 AD8278/AD8279 AD8273/AD8274

CMRR (dB) Min 86 86 80 77

Gain 0.2 1 0.5 or 2 0.5 or 2

Gain Drift (ppm/°C) Max 1 1 1 2

IQ/Amp (mA) 2.3 0.2 0.2 2.6

Comment With level shifter AD8277 is dual AD8279 is dual AD8273 is dual

Precision Op Amps Precision op amps are used as signal conditioning in the motor control systems. They will be used as the sensor to ADC interface, thus the rail-to-rail input and output in high linearity will be needed. They can also be used between the resolver-to-digital converter (RDC) and the resolver to provide high current in high slew rate and accuracy. Wider bandwidth amplifiers will be used to detect the fast changing current in the system. Part Number

Power Supply (V)

Offset Voltage (μV) Max

TCVOS (μV/°C) Max

Short-Circuit Current (mA)

Bandwidth (MHz)

Slew Rate (V/μs)

Comment

ADA4077 ADA4096 OP279 ADA4661 ADA4666 AD8662 ADA4500 AD8602 AD8515 AD8606 ADA4897 AD8027 ADA4522

10 to 30 3 to 30 4.5 to 12 3 to 18 3 to 18 5 to 16 2.7 to 5.5 2.7 to 5.5 1.8 to 5 2.7 to 5.5 3 to 10 2.7 to 12 4.5 to 55

25 300 4000 150 2200 1000 120 500 6000 65 500 800 5

0.25 1 4 3.1 3.1 9 5.5 2 4 (typ) 4.5 0.2 (typ) 1.5 (typ) 0.022

22 10 50 220 220 19 26 30 20 80 135 120 22

4 0.8 5 4 4 4 10.1 8 5 10 230 190 3

1 0.4 3 2 2 3.5 5.5 5 2.7 5 120 90 1.4

General-purpose precision General-purpose RRIO RDC driver RDC driver Low cost RDC driver RDC driver RRIO, zero crossover Low cost Low cost, smaller package Low cost, smaller package High speed current measurement High speed current measurement EMI enhanced, zero-drift

Precision Voltage References Voltage references are used as converter voltage reference or signal conditioning. Low drift and low cost parts are needed in motor control. Part Number ADR43x ADR34xx ADR1581

Power Supply (V)

Output Voltage (V)

Max Drift (ppm/°C)

Load Current (mA)

Comment

Up to 18 Up to 5.5 5

2.048, 2.5, 3, 4.5, 4.096, 5 1.2, 2.048, 2.5, 3, 4.096, 5 1.25

3 8 50

+30/–20 +10/–3 N/A

Low noise Low power, small size of 6-lead SOT-23, low cost Low cost, small size of 3-lead SOT-23

For additional information, visit analog.com/amplifiers.



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Low Noise MEMS Accelerometers for Condition Monitoring MEMS accelerometers are finding their way into condition monitoring products due to several attractive attributes, not the least of which is lowering the overall cost of the system. MEMS sensors bring small size and weight, low power, a dc response for fast recovery from overload, high shock tolerance, highly integrated solutions, and, maybe most importantly, scalable manufacturing. DoF

FSR (±g)

Noise Density (μg/√Hz)

ADXL001*

1

70, 250, 500

ADXL326*

3

16

Part Number

F0 (kHz)

Interface

Power supply current (μA)

4000

22

Analog

2,500

300

5.5

Analog

350

*Note: In addition to these legacy products, new parts with upgraded performance are sampling now. Contact us at analog.com/about-adi/contact-us for more information.

For additional information, visit analog.com/MEMS.

15



16 Motor Control Systems and Design

Motor Control System and Subsystem Development Platform Isolated Inverter Platform Evaluation Board The isolated inverter platform offers time-saving hardware and/or software development for 3-phase inverter applications in motor control. Two models are available—isolated inverter platform and isolated inverter platform with full feature IGBT drivers. They enable users to evaluate ADI’s isolation technology in a highly configurable system-oriented platform with multiple test points, and connectivity options. An easy-plug connector allows controller connection to an ADSP-CM408 processor evaluation board, while additional 0.1" headers enable alternative connectivity to other process or FPGA platforms. Hardware XX

Isolated inverter board, 24 V to 800 V dc, 2 kVA (2 versions)

XX

Adapter board for connection to EZ-KIT

XX

USB to serial adapter for using GUI

XX

ADSP-CM408 EZ-KIT (sold separately)

Software XX

IAR Embedded Workbench C project

XX

Executable demo application

XX

.NET-based graphical user interface (GUI)

For additional information, visit analog.com/eval-iso-inverter-mc. Additional resource: Analog Devices EngineerZone Motor Control Hardware Platforms Community at ez.analog.com/community/motor-control-hardware-platforms2

FlexMC Motor Control Development Platform™ The FlexMC Motor Control Development Platform is a rapid development system for any motor control solution The FlexMC kit enables you to accelerate time to market and increase performance with powerful model-based design tools. This solution combines hardware and software with out-of-the-box functionality for a permanent magnet synchronous motor (PMSM) with Hall sensor, encoder, or sensorless feedback.

FlexMC Universal AC Kit Hardware: XX

Drive board: universal ac input, 400 W output

XX

3-phase brushless PMSM

XX

Quadrature incremental encoder

XX

Resolver feedback

XX

Integration with ADSP-CM408 EZ-KIT (sold separately)

Software: XX

MATLAB/Simulink libraries

XX

C libraries

XX

Demo application

For additional information, visit analog.com/eval-flex-mc-universal-kit.



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FlexMC Low Voltage Kit Hardware: XX

Drive board: low voltage, 12 V to 36 V dc, 10 A output

XX

3-phase brushless dc (BLDC) motor

XX

Quadrature incremental encoder

XX

Integration with ADSP-CM408 EZ-KIT (sold separately)

Software: XX

MATLAB/Simulink libraries

XX

C libraries

XX

Demo application

For additional information, visit analog.com/eval-flex_mc_low_voltage_kit.

AD-FMCMOTCON2-EBZ Evaluation Board The AD-FMCMOTCON2-EBZ is a complete high performance servo system on an FPGA mezzanine card (FMC) board. It provides a complete motor drive system to demonstrate efficient and high dynamic control of 3-phase PMSM and induction motors up to 48 V and 20 A and enables users to model and implement motor control algorithms rapidly for high performance servo systems by incorporating system modeling and design concepts using MathWorks modelbased design. The kit consists of two boards: a controller board and a drive board. An optional AD-DYNO2-EBS dynamometer can also be purchased through Avnet and is intended to be an extension of the drive system. The system reduces time needed to move a motor control system from concept to production, by providing a prototyping system to verify the hardware and control algorithms before moving to productions stage.

For additional information, visit analog.com/eval-flex_mc_low_voltage_kit. Additional information for motor control development platform can be found: wiki.analog.com; search for motor control hardware

ADI Reference Design Framework

UART Ethernet

DMA

USB 2.0 DMA C Code HDL Code

Field Oriented Controller

Encoder (Position, Speed) HDMI/S/P-DIF

Isolation

Σ-Δ ADC

PWM

User Application

DMA

AXI

IIO Scope

AXI Interconnect

Linux

ADC (Ia, Ib, VBus)

AXI

DMA

Cortex-a9

AXI

Programming Logic

AXI

Processing System

Power Inverters

Encoder Interface AD-FMCMOTCON2

17



18 Motor Control Systems and Design

Reference Designs Analog Devices reference designs enable design engineers to apply ADI’s vast applications expertise quickly and with a high level of confidence toward their own design using circuits that are built and tested by the experts to ensure both performance and function. Low cost hardware allows for evaluation and rapid prototyping with several development platforms. Thorough documentation and design files ease application understanding and minimize system integration issues.

Hardware Enables XX

A modular approach to system designs

Design and Integration Files Support

XX

Application ready software

XX

XX

Fast prototyping with FPGA and MCU

Circuit Note Number CN-0288 CN-0301 CN-0303 CN-0323 CN-0196 CN-0313 CN-0218 CN-0192 CN-0276 CN-0341 CN-0116

CN-0100

Documentation Provides XX

Expert applications knowledge

Schematic, layout, BOM downloads

XX

Understanding of circuit capabilities

XX

Linux code for driver development

XX

Tested and verified performance data

XX

Simplified application integration

Title

Applications

LVDT Signal Conditioning Circuit  Universal LVDT Signal Conditioning Circuit MEMS-Based Vibration Analyzer with Frequency Response Compensation Magnetoresistive Angle Measurement H-Bridge Driver Circuit Using Isolated Half-Bridge Drivers  EMC Compliant RS-485 Transceiver Protection Circuits

Servos and robotics Servos and robotics Servos and robotics, drives, application specific motor control Servos and robotics, drives, application specific motor control

500 V Common-Mode Voltage Current Monitor High Current Driver for the AD2S1210 Resolver-to-Digital Reference Signal Output High Performance, 10-Bit to 16-Bit Resolver-to-Digital Converter Magnetoresistive Linear Products Measurement High Voltage High Precision Current Sensing with Output Level Shifting Using the AD8210 Current Sense Amplifier and the AD8274 Difference Amplifier  Measuring −48 V High-Side Current Using the AD629 Difference Amplifier AD8603 Op Amp AD780 Reference and AD7453 12-Bit ADC Single-Supply Components 

Servos and robotics, drives, application specific motor control

Products Used in This Circuit AD598, AD7992, AD8615 AD698, AD7992, AD8615 AD7866, AD8227, AD8615 AD7866, AD8227, AD8615 ADCMP350, ADG787, ADP1720, ADuC7061, ADuM3100, ADuM7234

Servos and robotics, drives, application specific motor control

ADM3485E

Servos and robotics, drives, application specific motor control

AD7171, AD8212, AD8605, ADR381, ADuM5402

Servos and robotics, application specific motor control

AD2S1210, AD8662

Servos and robotics

AD2S1210, AD8397, AD8692, AD8694, ADG1611, ADG1612 AD7866, AD8227, AD8615

Application specific motor control

AD780, AD8210, AD8274

Application specific motor control

AD629, AD7453, AD780, AD8603

Servos and robotics

CN-0313 circuit evaluation board. CN-0276 circuit evaluation board.

CN-0301 circuit evaluation board.

CN-0218 circuit evaluation board.

CN-0323 circuit evaluation board.



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Model-Based Design — Making Design Easy System Design Value for Any Motor Control System Benefits

Model-based design was developed to help simplify the difficulties and complexities inherent in control systems designs using traditional nonautomated methods. Model-based design provides the designer with a virtual design environment that enables developers to use a single model of their entire system for data analysis, model visualization, testing, validation, and eventually product deployment. Once the model is built and tested, accurate real-time software is automatically generated, saving time and reducing overall development costs as compared to traditional manual coding. Model-based design with automatic code generation can also be used in rapid prototyping, further reducing the design cycle. By its nature, model-based design provides a structure for software reuse that permits established designs to be effectively scaled up or down in complexity depending upon the desired application and reliably upgraded in a more simplistic and cost-effective manner.

XX

Faster design iterations that produce desired performance, functionality, and capabilities

XX

Design cycles that are more predictable and result in faster product shipments

XX

Reduction in design, development, and implementation

Test Signals

Motor/ Inverter Model

Controller Model

Verify

PC

System Model

CODE GENERATION

Motor/ Inverter

System

Target

Model-based design saves valuable design resources by cutting design time and providing final designs that are more accurate and more closely approximate predesign expectations for performance, systems functionality, and features and schedule.

HW

Embedded Controller

Motor Drive System

Executable Models • Unambiguous • Only “One Truth”

ARM Library • M3/M4 Support

Motor Control • FOC Functions

Legacy Code • Existing Code

Device Drivers • Functional Model C-Code

Executable Specifications

Simulation • Reduces “Real” Prototypes • Systematic “What If” Analysis

Design with Simulation

Continuous Test and Verification

Model

Device Drivers • SW Enablement Package

Test with Design • Detects Errors Earlier

System Resources • Allocation and Setup

C-Code

C-Code Scheduling • IRQS/RTOS

Application Code • State Machines Executable

Automatic Code Generation

Automatic Code Generation • Minimizes Coding Errors

ADSP-CM40x

B6 VDC_MEAS

VDC

DUTY +

DCP –

DCM DC_LINK

DUTY_ABC

VABC

A

A

B

B

C

C

IABC A B C

VA VB

RPM

[RPM]

IABC

[IABC]

THETA

[THETA]

VC

Discrete, s = 0.0001s Power GUI

[ALL_ABC] PMSM

Power Inverter and Motor (Model) PMSMCTRL [ABC_ADC]

[DUTY_ABC]

CNT_A

[CNT_A]

[CNT_A]

DUTY_ABC CNT_B

[CNT_B]

[CNT_B]

CNT_C

[CNT_C]

[CNT_C]

ePWM [RPM]

[THETA_QEP] [VDC_ADC]

[IABC_ADC]

K–

[VDC_ADC]

VDC_ADC

[PD] MC Algorithm (Simulink)

SLATERPMSM

[THETA_QEP]

QEP_cnt QEP_CNT THETA_SNS QEP

CC and Link

IABC_SNS IABC

[IABC]

VDC_SNS

VDC

[VDC]

Voltage Sensor

THETA_SNS THETA

[THETA]

HALL_ABC [PD]

MC ‘C’ Code Device Drivers Application Code

VDC_SNS

ADC

Embedded Decoder

[IABC]

IABC_SNS

Current Sensor

ADSP-CM40x

T

MC Application Firmware

IABC_ADC

Device Drivers

PD

HALL_ABC PD

HALL Position Sensor

Sensors, Interfaces, and Device Drivers

[HALL_ABC]

19



20 Motor Control Systems and Design

Motor Control Architectures and Solutions 2

3 Power

Power

AC Motor

AC Motor

>25A

Control

Control

Communications

Safety Earth

Safety Earth

Communications

Isolated Communications

Isolated Control

1

4 Power

Power

AC Motor

AC Motor

+– Σ-Δ

+– Σ-Δ

Control Control

Communications

Safety Earth

Communications

Safety Earth

<25A



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It is easy to become overwhelmed with the endless number of variations in motor control configurations. To help simplify things, Analog Devices has consolidated the number of possible motor control architectures into four fundamental categories that most systems would fall into. Depending on your selection, ADI can quickly identify and recommend the proper products and solutions for your specific design. Zone

Configuration Description

Typical Application

Technology Recommendation XX

XX XX

1 XX

DC rail-referenced controller Low-side shunt current sensing (<25 A) Low speed communications protocols—easily isolated

XX XX XX

Inverters

XX XX XX XX

XX XX

2 XX

XX XX

3

XX XX

DC rail-referenced controller Transducer/transformer-based phase current sensing (>25 A) Low speed communications protocols—easily isolated Earth-referenced controller and communications Isolated control and feedback for better performance Transducer/transformer-based phase current sensing (>25 A) High speed communications protocols

XX XX

Simple function servos and drives

XX XX XX XX

XX XX XX

Advanced functionality servos and drives

XX XX XX XX XX

XX XX

4

XX XX

Earth-referenced controller and communications Isolated control and feedback for better performance Shunt-based phase current sensing (<25 A) High speed communications protocols

XX XX

XX XX

Advanced functionality servos and drives High end drives Multiaxis servo designs

XX XX XX XX XX

Isolated CAN/Isolated RS-485 Power management Embedded processors Standard components: ADC and AMP Current sensing Precision microcontroller Digital isolation Isolated gate drivers Power management Position and current sensing Embedded processors Standard components: ADC and AMP Digital isolation Isolated gate drivers Power management Position and current sensing Embedded processors Standard components: ADC and AMP Isolated gate drivers Power management Position and current sensing Embedded processors MEMS sensors and accelerometers Standard components: ADC and AMP Multiaxis controllers

Subsystem and System Platform Solutions

Reference Design XX XX

XX

Low voltage drive XX XX

XX

Isolated inverter

XX

Position sensing (CN-0323, CN-0341, CN-0368—AMR), (CN-0276—RDC)

XX

Isolated communications (CN-0373) Power (CN-0190) Isolated LVDS (signals, communications—CN-0256)

XX XX

XX XX XX XX

Isolated Inverter High voltage drive

XX XX XX

XX

XX XX XX

High voltage drive Low voltage drive FMCMOTCON

Current sensing (CN-0240, CN-0218, CN-0116) Isolated communications (CN-0373) Power (CN-0190) Isolated LVDS (signals, communications—CN-0256)

XX XX XX XX

Communications (CN-0313) Position sensing (CN-0276—RDC) Accelerometers (CN-0303) Power (CN-0190) Isolated LVDS (signals, communications—CN-0256) Position sensing (CN-0301, CN-0371, CN-0288—LVDT), (CN-0276—RDC) Communications (CN-0313) Gate drive (CN-0196) Current sensing (CN-0185, CN-0280) Power (CN-0190)

21



22 Motor Control Systems and Design

Strategic Partnerships and Alliances Analog Devices has a long and proud tradition of collaborating with the industry’s leading technology companies from across the globe. ADI’s products and system-level solutions have been refined and enhanced with the help of our global technology partners by leveraging their industry-leading innovations in software, embedded technologies, and system integration expertise.

ARM Holdings plc is the world’s leading semiconductor intellectual property (IP) supplier. The technology ARM designs are at the heart of many of the digital electronic products sold. ARM has an innovative business model. Instead of bearing the costs associated with manufacturing, ARM licenses its technology to a network of partners, mainly leading semiconductor manufacturers and OEMs. These partners utilize ARM’s designs to create smart, low energy chips suitable for modern electronic devices. Visit www.arm.com

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IAR Systems is the world’s leading independent provider of software for programming of processors in embedded systems. The software is used by approximately 20,000 large and small corporations to develop products based on 8-, 16-, and 32-bit processors, mainly in the areas of industrial automation, medical devices, consumer electronics, and the automotive industry. Visit www.IAR.com

MathWorks is the leading developer of mathematical computing software. Engineers and scientists worldwide rely on its products to accelerate the pace of discovery, innovation, and development. MATLAB and Simulink® are the two flagship products that MathWorks offers to customers around the world. Visit www.mathworks.com

Xilinx is the world’s leading provider of all programmable FPGAs, SoCs, and 3D ICs. These industry-leading devices are coupled with a next-generation design environment and IP to serve a broad range of customer needs, from programmable logic to programmable systems integration. Visit www.xilinx.com

Third-Party Developers Program Analog Devices third-party developers network consists of companies all over the world that provide hardware products, software products, algorithms, and design services for a wide variety of applications and markets. Visit www.analog.com/en/third-party-developers/processors-DSP/content/search.html



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Online Tools And Resources To learn more about products, signal chain solutions, and technical expertise offered by Analog Devices to help engineers meet today’s motor control design challenges, visit www.analog.com/motorcontrol.

Analog Filter Wizard ­ www.analog.com/filterwizard

Photodiode Wizard www.analog.com/photodiode

Use the Analog Filter Wizard to design low-pass, high-pass, or band-pass filters with actual op amps in minutes. As you progress through the design process, you can observe the characteristics of your filter design from ideal specifications to real-world circuit behavior. Quickly evaluate the trade-offs in op amp specifications—including gain bandwidth, noise, and supply current— to determine the best filter design for your requirements.

Use Photodiode Wizard to design a transimpedance amplifier circuit to interface with a photodiode. Select a photodiode from the library included in the tool, or enter custom photodiode specifications. Quickly observe trade-offs between bandwidth, peaking (Q), and ENOB/SNR. Modify circuit parameters, and immediately see results in plots for pulse response, frequency response, and noise gain.

ADIsimPower www.analog.com/adisimpower ADIsimPower™ is a collection of downloadable Excel spreadsheets that produce complete power designs optimized to your design goals. Get a schematic, bill of materials, and performance data customized to your specific needs in minutes.

Analog Devices Wiki wiki.analog.com The ADI wiki site provides developers using Analog Devices products with software and documentation. It also contains user guides for some ADI evaluation boards to help developers get up and running fast.

ADIsimPower Selector ADIsimPower Selector uses your specific application requirements and compares solutions from over 300 power management parts and over 10 different topologies. Each solution takes into consideration the IC, external components, and operating condition to be able to compare expected performance.

Circuits from the Lab Reference Designs For a complete list of Analog Devices Circuits from the Lab® Reference Designs for motor control designs, visit www.analog.com/circuits.

EngineerZone® Online Support Community Find answers to your design questions. Join our engineer community at ez.analog.com.

Quality, Reliability, and Product Life Cycle ADI is committed to the establishment and continuous improvement of world class systems and processes aimed at satisfying our customers’ evolving needs. For information about our quality and reliability program, visit www.analog.com/quality. For information about product life cycle, visit www.analog.com/product_status_info.

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Analog Devices, Inc. Worldwide Headquarters

Analog Devices, Inc. Europe Headquarters

Analog Devices, Inc. Japan Headquarters

Analog Devices, Inc. Asia Pacific Headquarters

Analog Devices, Inc. One Technology Way P.O. Box 9106 Norwood, MA 02062-9106 U.S.A. Tel: 781.329.4700 (800.262.5643, U.S.A. only) Fax: 781.461.3113

Analog Devices, Inc. Otl–Aicher–Str. 60-64 80807 München Germany Tel: 49.89.76903.0 Fax: 49.89.76903.157

Analog Devices, KK New Pier Takeshiba South Tower Building 1-16-1 Kaigan, Minato-ku, Tokyo, 105-6891 Japan Tel: 813.5402.8200 Fax: 813.5402.1064

Analog Devices 5F, Sandhill Plaza 2290 Zuchongzhi Road Zhangjiang Hi-Tech Park Pudong New District Shanghai, China 201203 Tel: 86.21.2320.8000 Fax: 86.21.2320.8222

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