1. Applications in the �Industrial Instrumentation Market
2. Diversity of Markets Served by ADI�FY08 Revenue = $2.58B ��
3. ADI’s Commitment to Industrial Customers 40 years serving industrial segment
70% of ADI’s customer base; 40% of annual sales revenues
Key Analog supplier to TIER1 Process Control & DAQ manufacturers
Broadest portfolio of Analog ICs
# 1 in data converters and amplifiers
Continuous R&D investment ; $150M/ yr.
Innovating beyond performance
Smaller, faster, lower cost….
World class technical support, long product life cycles and
superior on-time delivery
For four decades, ADI has served tens of thousands of industrial customers with data converters, amplifiers and other analog products.
Industrial applications, including factory automation, test and measurement and medical imaging, account for approximately 40 percent of ADI’s sales revenues. Continuous investments in research development have led to the developments of innovative process technology and product breakthroughs to resolve customer challenges beyond performance – including dramatic size reduction, faster design times and lower cost of ownership.For four decades, ADI has served tens of thousands of industrial customers with data converters, amplifiers and other analog products.
Industrial applications, including factory automation, test and measurement and medical imaging, account for approximately 40 percent of ADI’s sales revenues. Continuous investments in research development have led to the developments of innovative process technology and product breakthroughs to resolve customer challenges beyond performance – including dramatic size reduction, faster design times and lower cost of ownership.
4. ADI Industrial Semiconductor Revenue Growth
5. I&I Segment Definitions �
I&I Segment Definitions included for:
Instrumentation
Motor Control
Process Control
Metering
Security & Surveillance
Building Technology
6. Data Acquisition Solutions This is a generic data acquisition diagram taken from the “Market Segmentation Solutions Presentations” page on Disty Corner….
http://distributor.analog.com/DistiCorner/asp/include/ShowFile.aspx?File=MARKET/index.html
Our signal chain is a variation of this idea and is based on a SIGNAL CHAIN that came from a REAL CUSTOMER.
This is a generic data acquisition diagram taken from the “Market Segmentation Solutions Presentations” page on Disty Corner….
http://distributor.analog.com/DistiCorner/asp/include/ShowFile.aspx?File=MARKET/index.html
Our signal chain is a variation of this idea and is based on a SIGNAL CHAIN that came from a REAL CUSTOMER.
7. 3D level monitoring system – monitors level, volume, mass of materials in a silo or open bin- non-contact method The system monitors the level of material in a silo or container.
The material can be solid (e.g. power or grain) or liquid (e.g. chemicals).
The transducers or microphones scan and map the whole area using beamforming techniques – similar to ultrasound or sonar.
Low frequency pulses are sent and the echoes are received from the contents.
The processor works on the time of arrival and direction of the received pulses (GLP = General Level Processor).
With the processing algorithms used a 3 dimensional map is produced.
The volume and mass of material can be derived and can be displayed in various ways.
The system monitors the level of material in a silo or container.
The material can be solid (e.g. power or grain) or liquid (e.g. chemicals).
The transducers or microphones scan and map the whole area using beamforming techniques – similar to ultrasound or sonar.
Low frequency pulses are sent and the echoes are received from the contents.
The processor works on the time of arrival and direction of the received pulses (GLP = General Level Processor).
With the processing algorithms used a 3 dimensional map is produced.
The volume and mass of material can be derived and can be displayed in various ways.
8. Versatile Can work with almost all solids and liquids including hazardous or explosive materials. TX and RX can use different channels Remote temperature monitoring is normally also included (see temperature monitoring signal chain in 2H09AIE Green Energy them for an example).
Remote temperature monitoring is normally also included (see temperature monitoring signal chain in 2H09AIE Green Energy them for an example).
9. Signal chain description The LF transducers are switched from input to output by the low RON ADG884 analog switches, effectively acting as transmit/receive (TX/RX) switches; the transducers are quite low impedance (about 8 ohms).
In transmit mode the signal pulses are bandpass filtered and fed to a low noise amplifier (LNA) – ADA4841.
The LNA provides outputs at a suitable level for conversion in the AD7923 200 KSPS, 12 bit, 4 channel ADC.
The digitised transducer outputs can now be processed by the ADSP-BF534 Blackfin DSP (the customer calls this a GLP in his application , general level processor).
The DSP can output suitably processed information (including the level of material, temperature , pressure etc.) to an LCD display.
The AD5228 digital potentiometer controls the display contrast.
The DSP also provides suitable transmit waveforms via the AD5601 DACs to excite the transducers in TX mode.
The SSM2250 audio amplifier produces a sufficient amplitude for these pulses to be applied via the ADG884 as the excitation source for the transducers.
The system also contains a HART modem which runs over a standard 4-20 mA loop; the AD421 loop powered DAC performs this function.
An ADM6713 processor supervisory chip monitors the DSP, acting a reset generator during power up/down or if the supplies fall below a workable threshold.
The power supplies themselves use ADP121, ADP1715 and ADP1710 linear regulator ICs. The LF transducers are switched from input to output by the low RON ADG884 analog switches, effectively acting as transmit/receive (TX/RX) switches; the transducers are quite low impedance (about 8 ohms).
In transmit mode the signal pulses are bandpass filtered and fed to a low noise amplifier (LNA) – ADA4841.
The LNA provides outputs at a suitable level for conversion in the AD7923 200 KSPS, 12 bit, 4 channel ADC.
The digitised transducer outputs can now be processed by the ADSP-BF534 Blackfin DSP (the customer calls this a GLP in his application , general level processor).
The DSP can output suitably processed information (including the level of material, temperature , pressure etc.) to an LCD display.
The AD5228 digital potentiometer controls the display contrast.
The DSP also provides suitable transmit waveforms via the AD5601 DACs to excite the transducers in TX mode.
The SSM2250 audio amplifier produces a sufficient amplitude for these pulses to be applied via the ADG884 as the excitation source for the transducers.
The system also contains a HART modem which runs over a standard 4-20 mA loop; the AD421 loop powered DAC performs this function.
An ADM6713 processor supervisory chip monitors the DSP, acting a reset generator during power up/down or if the supplies fall below a workable threshold.
The power supplies themselves use ADP121, ADP1715 and ADP1710 linear regulator ICs.
10. The ADG884 is used because a low RON is essential when the transducers have low impedance; they also have to handle quite high currents. The typical on resistance of the ADG884 is only 0.1 ohms. The ADG884 is used because a low RON is essential when the transducers have low impedance; they also have to handle quite high currents. The typical on resistance of the ADG884 is only 0.1 ohms.
11. ADA4841-1/2 Low Power, Low Noise, Low Distortion� FEATURES
Low Power: 1.1mA
Low Noise: 2.1nV/?Hz, 1.4pA/?Hz
Low 1/f Noise: 7nV /?Hz, 13pA/?Hz*
Low distortion:105dBc@100KHz
High Speed
3dB Bandwidth:80MHz
Slew Rate:12V/µs
Low offset voltage:40µV typ
Rail to Rail output
Power down
*Measured at 10Hz We need a low noise amplifier to boost the transducer signal to a suitable level prior to A/D conversion with minimum added noise and distortion at frequencies up to at least a few KHz.
The ADA4841 meets this requirement.
We need a low noise amplifier to boost the transducer signal to a suitable level prior to A/D conversion with minimum added noise and distortion at frequencies up to at least a few KHz.
The ADA4841 meets this requirement.
12. Competitive Comparison for Low Noise and Power, Op Amps for AV=>1 This is a comparison against some of our competitors; note our low noise combined with lowest distortion. This is a comparison against some of our competitors; note our low noise combined with lowest distortion.
13. AD7490 – 16-Channel Sequencer ADC � KEY BENEFITS
Sequencer allows multi-channel programmability
16-channel multiplexer with configurable sequence. AD7923=4 channel
ADC with 1 MSPS Throughput Rate per Channel. AD7923=200 KSPS
Enables fast throughput for multiple channel applications
Fully Specified for AC and DC performance
INL: ±1LSB, DNL: ±1LSB, SNR: 70dB
Power/Speed Management
Power scales with throughput This is the IC from which the rest of the sequencing multichannel SAR ADCs were developed.
This application uses the 4 channel AD7923 200 KSPS version. This is the IC from which the rest of the sequencing multichannel SAR ADCs were developed.
This application uses the 4 channel AD7923 200 KSPS version.
14. 8 & 4 Channel Derivatives of the AD7490 8-Channels
AD7928/18/08 : 8-CH, 12,10&8-Bit, 1MSPS ADC, with Sequencer
AD7927: 8 CH, 12-Bit, 200 kSPS ADC with Sequencer
Full sequencer functionality. 16 bit Shadow Register can hold two 8 channel sequences or can fill 2nd sequence with zeros
Only 3 Channel I.D. bits, No WEAK/TRI bit
20 pin TSSOP Package
4-Channels
AD7924/14/04 : 4-CH, 12,10&8-Bit, 1MSPS ADC with Sequencer
AD7923: 4-CH, 12-Bit, 200 kSPS ADC with Sequencer
No Shadow Register. Consecutive sequence from 0 to final channel via Control Register only
Only 2 Channel I.D. bits, No WEAK/TRI bit
16 pin TSSOP Package For systems with more channels to monitor (e.g. more vessels or silos in the system), there are a number of variants that use the same ADC core. For systems with more channels to monitor (e.g. more vessels or silos in the system), there are a number of variants that use the same ADC core.
15. ADSP-BF534 �For Automotive and Industrial Apps Key Features
Embedded CAN
8 timers & 48 GPIOs
Industrial and Automotive temperature range
Dynamic Power Management varies frequency and voltage
Interfaces to External FLASH and SDRAM The BF534 is well suited for this application and is what the customer actually chose to use. The BF534 is well suited for this application and is what the customer actually chose to use.
16. ADSP-BF534/536/537�CAN Features ADSP-BF534 CAN Controller:
Adheres fully to CAN V2.0B standard
Supports both standard (11-bit) and extended (29-bit) Identifiers
Supports Data Rates of up to 1Mbit/second (and higher)
32 Configurable Mailboxes
8 Transmit Only
8 Receive Only
16 Configurable Receive or Transmit
Dedicated Acceptance Mask for each Mailbox
Data Filtering (first two bytes) can be used for Acceptance Filtering
CAN wakeup from Hibernation (lowest static power consumption) Mode
CAN Protocol Stacks
Automotive: CAN drivers and protocol stacks through Vector CANtech
Industrial: Leading third parties will provide a full Industrial suite for CANOpen, DeviceNet, etc. The BF534’s CAN module has been created to be very flexible�NOTE: This slide also pertains to the CAN on the BF536 / BF537 / and BF539 products. The CAN module is the same on all the processors.
The CAN module is actually an enhanced ADSP-21992 CAN that has been upgraded to 32 mailboxes (from 16) and includes acceptance filtering, the new CAN wakeup from Hibernation mode, etc.
ADI is working with leading CAN protocol stack and driver vendors to provide packages for both automotive and industrial applications.The BF534’s CAN module has been created to be very flexibleNOTE: This slide also pertains to the CAN on the BF536 / BF537 / and BF539 products. The CAN module is the same on all the processors.
The CAN module is actually an enhanced ADSP-21992 CAN that has been upgraded to 32 mailboxes (from 16) and includes acceptance filtering, the new CAN wakeup from Hibernation mode, etc.
ADI is working with leading CAN protocol stack and driver vendors to provide packages for both automotive and industrial applications.
17. AD421�loop powered 4-20 mA DAC � This is the DAC used for HART communication , powered from the customer’s existing current loop. This is the DAC used for HART communication , powered from the customer’s existing current loop.
18. Primarily Analog Communication�Digital Communication is also possible Digital data can be modulated on top of the 4-20mA current using FSK (Frequency Shift Keying)
HART (Highway Addressable Remote Transducer) On a 4-20mA loop only one parameter can be transmitted and only in one direction,
HART digital communication enables the transmitter to transmit multiple parameters (multivariable transmitters)
And also allows the transmitter to be controlled from the control room enabling
remote calibration and diagnostics.
HART uses an FSK scheme with 1200 Hz representing a 1 and 2200 Hz representing a 0.
The great majority of modern transmitters would include HART capability.
A HART modem is required to enable the digital communicationOn a 4-20mA loop only one parameter can be transmitted and only in one direction,
HART digital communication enables the transmitter to transmit multiple parameters (multivariable transmitters)
And also allows the transmitter to be controlled from the control room enabling
remote calibration and diagnostics.
HART uses an FSK scheme with 1200 Hz representing a 1 and 2200 Hz representing a 0.
The great majority of modern transmitters would include HART capability.
A HART modem is required to enable the digital communication
19. Adding HART communication capability This circuit shows how HART capability can be achieved with an ADuC706x ,an AD421 and a HART modem.
For transmission The HART modem accepts a bit stream from the controller and converts it into an FSK signal which is
Then applied to the AD421, the AD421 modulates the FSK signal onto the loop.
For reception the modem takes the FSK signal from the loop, converts it into a bit stream
Which it sends to the controller, implementing half duplex communication between the transmitter and the control room.
Further details are available in Application Note AN-534.
This circuit shows how HART capability can be achieved with an ADuC706x ,an AD421 and a HART modem.
For transmission The HART modem accepts a bit stream from the controller and converts it into an FSK signal which is
Then applied to the AD421, the AD421 modulates the FSK signal onto the loop.
For reception the modem takes the FSK signal from the loop, converts it into a bit stream
Which it sends to the controller, implementing half duplex communication between the transmitter and the control room.
Further details are available in Application Note AN-534.
20. AD5060 – World’s most accurate 16Bit DAC in SOT-23�Low Voltage Single Supply Cores KEY BENEFITS
High Performance
16 Bit Resolution
16 Bit Accurate (+1LSB)….including output buffer
…..traditionally only possible without output buffer
SOT-23 (Competition in MSOP without O/P buffer)
Supports High Integration
3V/5V supply
On chip reference buffer simplifies system The AD5061 is a spinoff from the AD5060 shown here; it has a faster update rate (1.3 MSPS versus 250 KSPS for the AD5060) but
4 LSB INL versus 1 LSB for the AD5060; this was adequate for the customer (and 40% lower cost than the AD5060). The AD5061 is a spinoff from the AD5060 shown here; it has a faster update rate (1.3 MSPS versus 250 KSPS for the AD5060) but
4 LSB INL versus 1 LSB for the AD5060; this was adequate for the customer (and 40% lower cost than the AD5060).
21. Single AD506X nanoDACTM Family –World’s First 16Bit DAC in SOT-23�Low Voltage Single Supply Cores AD5040 – 14Bit buffered, no reference
AD5060 – 16Bit, buffered, no reference
AD5061 – 16Bit, buffered, no reference
AD5062 – 16Bit, Un-buffered, no reference
AD5063 – 16Bit, Un-buffered, no reference
KEY BENEFITS
High Performance
16 Bit Resolution - guaranteed monotonic
16 Bit accurate – 1LSB
very low offset (0.05mv) and full scale error (un-buffered parts)
Supports low power applications
Idd <700ua max from 2.7V to 5.5V range
Output voltage reset to a known value on Power-up
Reference pin Buffered in all devices: simplifies driving the devices
This slide shows some more AD506x nanoDAC family members.
AD5660 – 16Bit with reference
AD5640
AD5620
AD5662 -
This slide shows some more AD506x nanoDAC family members.
AD5660 – 16Bit with reference
AD5640
AD5620
AD5662 -
22. AD506X Features Overview 16/14 Bit Resolution
16/14 bit Accurate
Tiny 10/8 Lead SOT-23 and MSOP package (2.9 x 2.8 vs. 5 x 3)
SPI Interface
Buffered reference
Power-on-reset to either zero or mid-scale
Output buffered/un-buffered
AD5060/61/40…..buffered
Low Power – 1.2mA max Idd @ 5.5V
Extended automotive temperature range; -40°C to +125°C
AD5062/63….un-buffered
Low power – 0.7 mA max Idd @ 5.5V
Temp range; -40°C to +85°C and - 40°C to +125°C This is a features overview for the AD506x family. This is a features overview for the AD506x family.
23. SSM2250* Stereo Power Amplifier Although it’s old (released 10 years ago) the SSM2250 audio amplifier has the necessary performance and specifications to
drive the transducers with sufficient amplitude.
This IC is on last time buy - Last Time Buy until December 17th 2009.
Final shipments by Dec 17th 2010.
It is an equivalent to the TPA311 from TI. Although it’s old (released 10 years ago) the SSM2250 audio amplifier has the necessary performance and specifications to
drive the transducers with sufficient amplitude.
This IC is on last time buy - Last Time Buy until December 17th 2009.
Final shipments by Dec 17th 2010.
It is an equivalent to the TPA311 from TI.
24. SSM2250* Stereo Power Amplifier Part of the ADI Soundmax® Audio Solution
Mono 1.5 Watt Differential or 250 mW Stereo Output
Single Supply Operation : 2.7V to 6.0V
Low Shutdown Current : 60 uA
PC 99 Compliant
Low Distortion : 0.2% THD @ 1.5W
Wide Bandwidth : 4 MHz
Unity Gain Stable
10 Lead MSSOP and 14 Lead TSSOP Packages Here is a slide from the original SSM2250 release period.
The 10 lead package was obsoleted last year. Here is a slide from the original SSM2250 release period.
The 10 lead package was obsoleted last year.
25. The AD5228 controls the backlight of the LCD display shown on the right of the signal chain diagram
It allows the user to use simple up/down buttons for this purpose with built in switch debouncing . The AD5228 controls the backlight of the LCD display shown on the right of the signal chain diagram
It allows the user to use simple up/down buttons for this purpose with built in switch debouncing .
26. Supervisory Portfolio Message ADI provides a supervisory solution from single channel to quad channel devices with industry leading threshold accuracy (down to ±0.8% accuracy).
Supervisory Product Offering
Single Channel Reset Generators
Single Channel Reset Generators with Watchdog Timers
Dual Channel Supervisor with a Watchdog Timer
Triple Channel Supervisor
Quad Channel Supervisor
For more than four channel monitoring, Super Sequencer solution.
A supervisor IC was needed for the Blackfin.
The ADM6713 was chosen as there is only one channel needed – for the blackfin processor. A supervisor IC was needed for the Blackfin.
The ADM6713 was chosen as there is only one channel needed – for the blackfin processor.
27. ADM6713: Microprocessor Supervisory Circuit in 4 lead SC-70 package Features
Precision monitoring of 2.5 V, 3 V, 3.3 V, and 5 V power supply voltages
Specified over temperature
-40°C to +125°C
Low power consumption (12 µA)
Reset timeout period of 140 ms (minimum)
Manual reset input
Output stages
Open-drain RESET output
Reset assertion down to 1 V VCC
Power supply glitch immunity
4-lead SC70 package
The ADM6713 fits the bill. The ADM6713 fits the bill.
28. ADP121�150mA Low Noise, Low IQ Performance LDO An ADP121 low dropout CMOS regulator supplies clean power at 3.3 volts to the LNA, DAC and ADC.
Another ADP121 or alternatively an ADP1710 can supply regulated power at 2.5 and/or 1.8 volts for the other linear ICs in the system.
The power amplifier (SSM2250/TPA311 requires a minimum of 2.7 volts, for which we are using the ADP1715. An ADP121 low dropout CMOS regulator supplies clean power at 3.3 volts to the LNA, DAC and ADC.
Another ADP121 or alternatively an ADP1710 can supply regulated power at 2.5 and/or 1.8 volts for the other linear ICs in the system.
The power amplifier (SSM2250/TPA311 requires a minimum of 2.7 volts, for which we are using the ADP1715.
29. Additional Resources
Distributor Corner Instrumentation and Process Control market segment PPTs :
http://distributor.analog.com/DistiCorner/asp/include/ShowFile.aspx?File=MARKET/index.html
Industrial Instrumentation Design webinar :
http://www.analog.com/en/industrial-solutions/applications/seminars-webcasts/CU_semweb_Options_in_Indust_Instrumentation_Design/resources/fca.html
Instrumentation page on ADI website :
http://www.analog.com/en/instrumentation-solutions/applications/index.html
