Field Transmitters and Process Instrumentation Solutions Guide Industrial Automation Solutions www.ti.com/automation 2015 Field Transmitters & Process Instrumentation Solutions Guide Table of Contents Introduction Monitoring and maintaining process variables at the appropriate levels is extremely critical in industrial automation and process control. A sensor in the industrial environment is either continuously or periodically measuring vital parameters such as temperature, pressure, flow, etc. The primary challenge of sensing in industrial environments is conditioning low signal levels in the presence of high noise and high-surge voltage. Texas Instruments (TI) has a broad portfolio of products catering to industrial sensing, ranging from bestin-class precision amplifiers and data converters to interface products, power products, and high performance microprocessors. TI’s cutting-edge semiconductor manufacturing processes provide industrial designers with products that meet the highest standards and that are optimized for industrial environments and extend product life cycles. TI offers a wide range of Enhanced Products for Industrial systems that must perform in harsh environments. To learn more, please visit: www.ti.com/extendedtemp Sensor Signal Conditioning 3 Temperature Transmitters 4 Pressure Transmitters 5 Flow Transmitters 6 Process Analytics 7Photoelectric Sensors Sensor Signal Conditioning & Integrated Sensing Solutions 8 Analog Switches 8 Current Shunt Monitors 8 Temperature Sensor IC’s 9 Inductive Sensing 10 Capacitive Sensing 11 Hall Sensors and Z-Domain Sensing Embedded Processing 12 MSP430 Ultra Low Power MCU 12 ARM Processors 12 Safety Processors 12 Digital Signal Processing (DSP) Interface 13 Integrated DAC and 4mA to 20mA Transmitter 13DAC 13 Interface Amplifier 13IO-Link 14 4mA to 20mA Transmitter 14RS-485 14CAN TI has automotive grade, wide input voltage power management products with features suitable for safety applications. 15 Ethernet PHY To learn more, please visit: www.ti.com/automotive 16 ESD/EMI Protection TI has expanded packaging options with the additional availability to bare die. To learn more, please visit: www.ti.com/die 2 Table of Contents | 15 Power over Ethernet (PoE) 15 Wireless Connectivity 16Isolation Power Management Solutions TI Designs/Powerlab™ Reference Designs 19PowerLab™ Power Reference Design Library 19 4mA to 20mA Current Loop 2-wire Sensor Power Supply 20 Turnkey IO-Link Sensor Transmitter 20Small Form Factor, 2-wire 4mA to 20mA Current Loop RTD Temperature Transmitter Reference Design 20RTD Temperature Transmitter for 2-wire 4-mA to 20-mA Current Loop Systems 20Isolated Loop Powered Thermocouple Transmitter 21Hall-Effect Proximity Sensor with PNP or NPN Output 21Isolated Ultra-Low Power Design for 4mA to 20mA Loop Powered Transmitters 21NFC Configuration & Logging Interface (Dual Port FRAM: NFC <-> FRAM <-> Serial) 21Combined Voltage and Current Output Terminal for Analog Outputs (AO) in Industrial Applications 22Variable Threshold Hall Proximity Sensor with PNP/NPN 22Simple Thermocouple Measurement Solution Reference Design, <1°C Accurate 22Bridge Sensor Signal Conditioner with Current Loop Output, EMC Protection 22Gas Sensor Platform with Bluetooth Low Energy 17Linear Regulators 17 Voltage References 17 System Timer 17 Charge Pump 18Switching Regulators Field Transmitters & Process Instrumentation 2015 Texas Instruments Sensor Signal Conditioning Temperature Transmitters Temperature transmitters, most commonly made by using resistance temperature detectors (RTD) or thermocouples, have a wide range of uses in industrial automation. A constant and linear excitation source is a critical aspect of RTD sensing, while cold junction compensation is the key to a good temperature measurement with thermocouples. TI offers a variety of high integration, high accuracy, and excellent resolution analog front end devices to address these sensors. Thermocouple with CJC (Cold Junction Compensation) Temperature Transmitter Signal Conditioning Device Resolution Sample (bits) Rate (SPS) Input Channels Supply Interface Voltage (V) Features EVM Operating Temp. Range (°C) Temp. sensor (0.5°C accurate) Temp. sensor (0.5°C accurate) ADS1118EVM –40 to 125 ADS1118EVM –40 to 125 cycle settling, GPIOs, Serial SPI 2.7 to 5.25 Single True bipolar, Temp. sensor ADS1148EVM cycle settling, GPIOs, ADS1248EVMSerial SPI 2.7 to 5.25 Single True bipolar, Temp. sensor PDK Single cycle settling, Serial SPI 2.3 to 5.5 ADS1120EVM sensor, IDACs Single cycle settling, Serial SPI 2.3 to 5.5 ADS1220EVM sensor, IDACs Continuous background Serial SPI 2.85 to 5.5 calibration, Current sources LMP90100EB Continuous background Serial SPI 2.85 to 5.5 calibration, Current sources LMP90100EB –40 to 105 Pin/Package Price* 10VSSOP, 10X2QFN 10VSSOP, 10X2QFN 1.15 Delta-Sigma ADCs (Thermocouple) ADS1018 12 3300 4 Serial SPI 2 to 5.5 ADS1118 16 860 4 Serial SPI 2 to 5.5 2.30 Delta-Sigma ADCs (RTD and Thermocouples)/ Analog Front Ends (AFE) ADS1148 16 2000 7 ADS1248 24 2000 7 ADS1120 16 2000 4 ADS1220 24 2000 4 LMP90080/79/78/77 16 214 7/4 LMP90100/99/98/97 24 214 7/4 Device Vs (Min) Vs (Max) (V) (V) Number of GBW (Typ) Channels (MHz) Slew Rate (Typ) (V/µs) 28TSSOP, 32VQFN 3.95 –40 to 105 28TSSOP 4.95 –40 to 125 16TSSOP 3.15 –40 to 125 16TSSOP, 16VQFN 3.95 –40 to 125 28HTSSOP 2.33 –40 to 125 28HTSSOP 2.86 CMRR Offset Offset Drift Operating (Typ) Iq per ch. Voltage (Typ) Temp. Range (dB) (Max) (mA) (Max) (mV) (µV/°C) (°C) Pin/Package Price* Amplifiers OPA320 OPA188 1.8 4 5.5 36 1 1 20 2 10 0.8 114 146 1.75 0.51 0.15 0.025 1.5 0.03 OPA376 2.2 5.5 1 5.5 2 90 0.95 0.005 0.26 LMP2011 2.7 5 1 3 4 130 1.2 0.06 0.015 *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. Texas Instruments –40 to 125 5SOT-23, 6SOT-23 –40 to 125 5SOT-23, 8SOIC, 8VSSOP 5SC70, 5SOT-23, –40 to 125 8SOIC –40 to 125 5SOT-23, 8SOIC 0.80 0.80 0.65 0.90 New products are listed in bold red. Field Transmitters & Process Instrumentation 2015 | 3 Sensor Signal Conditioning Pressure Transmitters Pressure transmitters, most commonly built from strain gauges, are essential in many process control applications such as weight, level, force, or flow. The primary challenges of pressure transmitters are nonlinearity, temperature dependent, a large offset, and a large offset drift. Texas Instruments offers several high precision analog front end devices that address these design challenges. Strain Gauge Pressure Transmitter Pressure Transmitter Signal Conditioning Vs (Min) (V) Device Vs (Max) (V) GBW (Typ) (MHz) Features EVM Operating Temp. Range (°C) Pin/Package Price* Zero-drift, input range from 1/8 V/V to 128V/V PGA308 plus temp. compensation Sensor signal conditioning w/MCU Resistive bridge sensor signal conditioner PGA281EVM –40 to 125 16TSSOP 2.55 PGA309EVM-USB PGA400Q1EVM — –40 to 125 –40 to 125 –40 to 150 16TSSOP 36VQFN 36VQFN, 36DSBGA 2.95 4.50 4.50 Programmable Analog Signal Conditioners PGA281 PGA309 PGA400-EP PGA300 10 36 6 2.7 –5.5 –28 5.5 16 33 2 — — Sample Resolution Rate Input (bits) (SPS) Channels Interface Device Supply Voltage (V) Power (Typ) (mW) 50/60Hz Reject 2.7 to 5.3 5 Yes Operating Temp. Pin/ Range (°C) Package Features EVM Price* Low side bridge switch, Pin control, Input EMI filter Pin control (no registers), offset calibration Single cycle settling, Temp. sensor Continuous background calibration, Current sources Continuous background calibration, Current sources ADS1131REF –40 to 85 20TSSOP 5.60 ADS1231REF –40 to 85 16SOIC 2.50 ADS1220EVM –40 to 125 16TSSOP, 16VQFN 3.95 LMP90100EB –40 to 125 28HTSSOP 2.33 LMP90100EB –40 to 125 28HTSSOP 2.86 Delta-Sigma ADCs/Analog Front Ends (AFE) ADS1131 18 80 1 ADS1231/2/4 24 80 1/2/4 ADS1220 24 2000 LMP90080/79/78/77 16 LMP90100/99/98/97 24 Device Serial Serial SPI 2.7 to 5.3 5/4.3/4.3 Yes 4 Serial SPI 2.3 to 5.5 0.4 Yes 214 7/4 Serial SPI 2.85 to 5.5 — — 214 7/4 Serial SPI 2.85 to 5.5 — — Offset Vs (Min) Vs (Max) Number of GBW (Typ) Slew Rate CMRR (Typ) Iq per ch. Voltage (V) (V) Channels (MHz) (Typ) (V/µs) (dB) (Max) (mA) (Max) (mV) Offset Drift Operating (Typ) Temp. Range (µV/°C) (°C) Pin/Package Price* 5SOT-23, 5SC70, 8SOIC 5SOT-23, 8SOIC, 8VSSOP 5SC70, 5SOT-23, 8SOIC 8SON, 8VSSOP 5SC70, 5SOT-23 5SOT-23, 8SOIC 0.95 0.69 0.55 1.80 0.70 1.00 Amplifiers OPA333 OPA180 OPA317 INA333 OPA378 LMP2021 1.8 4 1.8 1.8 2.2 2.2 5.5 36 5.5 5.5 5.5 5.5 1 1 1 1 1 1 0.35 2 0.3 0.15 0.9 5 0.16 0.8 0.15 0.16 0.4 2.6 *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. 4 | Field Transmitters & Process Instrumentation 2015 130 114 108 100 112 139 0.025 0.525 0.035 0.05 0.15 1.1 0.01 0.075 0.1 0.025 0.05 0.005 0.02 0.1 0.05 0.1 0.1 0.004 –40 to 125 –40 to 125 –40 to 125 –40 to 125 –40 to 125 –40 to 125 New products are listed in bold red. Preview products are listed in bold teal. Texas Instruments Sensor Signal Conditioning Flow Transmitters Flow meters, consisting of many different architectures such as electromagnetic and Coriolis, are critical measuring instruments used to measure liquid or gas flow in an industrial automation plant. Some of the design challenges for flow meters are low noise, high speed, and temperature compensation. Texas Instruments offers a variety of highly integrated simultaneous sampling or delta-sigma converters to meet your analog front end needs. Electromagnetic (MID) Flow Transmitter Flow Transmitter Signal Conditioning Supply Input Voltage Channels Interface (V) Sample Rate (kSPS) ADS7253/7853/ 8353 12/14/16 1000/1000 /700 2 Serial SPI 4.75 to 5.25 45 Single ended and pseudodifferential No ADS8353EVM-PDK –40 to 125 16QFN, 16TSSOP 3.50 ADS7254/7854/ 8354 12/14/16 2 Serial SPI 4.75 to 5.25 45 Differential No ADS8354EVM-PDK –40 to 125 16 1 Yes ADS8860EVM-PDK –40 to 85 ADS8861/3/5/7 16 Yes ADS8861EVM-PDK –40 to 85 ADS8881/3/5/7 18 PseudoSerial SPI 2.7 to 3.6 5.5/4.2/2.6 /0.7 differential Serial SPI 2.7 to 3.6 5.5/4.2/2.6 Truly-differential /0.7 Serial SPI 2.7 to 3.6 5.5/4.2/2.6 Truly-differential /0.7 Yes ADS8881EVM-PDK –40 to 85 16QFN, 16TSSOP 10VSSOP, 10SON 10VSSOP, 10SON 10VSSOP, 10SON 4.00 ADS8860/2/4/6 1000/1000 /700 1000/680/400 /100 1000/680/400 /100 1000/680/400 /100 Device Power (Typ) (mW) Input Supports Daisy Chain Operating Temp. Range (°C) Pin/Package Price* Resolution (bits) EVM SAR ADCs 1 1 Resolution Sample Input (bits) Rate (kSPS) Channels Device 5.00 5.50 7.95 Supply Interface Voltage (V) Power (Typ) (mW) SNR (dB) EVM Operating Temp. Range (°C) Pin/Package Price* Serial SPI 4.75 to 5.25 Serial SPI 2.7 to 5.25 Serial SPI 2.7 to 5.25 Serial SPI 5 38 2.3 8/12/16 275 0.555/0.6/ 0.69 /0.78/0.9 — — 107 111 49/61/70/ 70/71 — ADS1247EVM-PDK ADS131E08EVM-PDK ADS1274EVM-PDK –40 to 85 –40 to 105 –40 to 105 –40 to 125 20SSOP 20TSSOP 64TQFP 64HTQFP 6.96 5.99 3.95 14.65 ADS7042EVM-PDK –40 to 125 8QFN, 8VSSOP 2.10 Delta-Sigma ADCs ADS1255 ADS1247 ADS131E04/6/8 ADS1274 ADS7040/7041/ 7042/7043/7044 Device 24 24 24 24 8/10/12/ 12/12 30 2 64 144 2 3 4/6/8 4 1000 1 Serial SPI 1.8 to 3.6 Offset Vs (Min) Vs (Max) Number of GBW (Typ) Slew Rate CMRR (Typ) Iq per ch. Voltage (V) (V) Channels (MHz) (Typ) (V/µs) (dB) (Max) (mA) (Max) (mV) Offset Drift Operating (Typ) Temp. Range (µV/°C) (°C) Pin/Package Price* 5SOT-23, 5SC70, 8SOIC 8SOIC, 8SON, 8VSSOP 16TSSOP/10QFN, 8SOIC, 8VSSOP 5SOT-23,6SOT-23 8SOT-23, 8SOIC, 8VSSOP 0.95 1.10 Amplifiers OPA333 INA826 1.8 2.7 5.5 36 1 1 0.35 1 0.16 1 130 115 0.025 0.25 0.01 0.15 0.02 2 –40 to 125 –40 to 125 THS4532 2.5 5.5 1 36 220 116 0.25 0.4 3 –40 to 125 OPA320 OPA140 1.8 4.5 5.5 36 1 1 20 11 10 20 114 140 1.75 2 0.15 0.12 1.5 0.35 –40 to 125 –40 to 125 *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. Texas Instruments 1.45 0.80 1.55 New products are listed in bold red. Preview products are listed in bold teal. Field Transmitters & Process Instrumentation 2015 | 5 Sensor Signal Conditioning Process Analytics Gas sensing is a critical component of monitoring safety and process performance in a multitude of applications ranging from building automation, oil and gas process industries, portable toxic gas detectors, etc. One common mechanism used to measure gas is a 3 lead electrochemical cell. Texas Instruments offers several analog front end devices that support a wide variety of gases including CO2, H2S, CO, and O2. Gas Detection Process Analytics Signal Conditioning Gas Sensitivity Range Device Input Channels Supply Interface Voltage (V) Application EVM Operating Temp. Range (°C) Pin/Package Price* –40 to 85 14WSON 1.80 –40 to 85 10VSSOP/14TSSOP 1.25 Analog Front Ends (AFE) Configurable AFE potentiostat for LMP91000EVM electrochemical gas sensing Configurable AFE for nondispersive LMP90150SDEVAL infrared (NDIR) sensing LMP91000/2 0.5 to 9500 nA/ppm 1 Serial I2C 2.7 to 5.25 LMP91050/1 167 to 7986 V/V programmable gain 1/2 Serial SPI 2.7 to 5.5 Interface Supply Power Voltage (V) (Typ) (mW) Device Resolution Sample Input (bits) Rate (kSPS) Channels Features EVM Operating Temp. Range (°C) Pin/Package Price* 10VSSOP, 10X2QFN 2.30 Delta-Sigma ADCs ADS1118/15 16 0.86 4 Serial SPI/ Serial I2C 2 to 5.5 0.3 Temp. sensor ADS1115EVM-PDK –40 to 125 ADS1220 24 2 4 Serial SPI 2.3 to 5.5 0.4 ADS1220EVM –40 to 125 ADS1259 24 14.4 1 Serial SPI 5 13 Single cycle settling, temp. sensor; iDACs Single cycle settling ADS1259EVM-PDK –40 to 105 Device Vs Vs lb Number Offset (Min) (Max) (Max) of GBW (Typ) Slew Rate CMRR (Typ) Iq per ch. Voltage (V) (V) (pA) Channels (MHz) (Typ) (V/µs) (dB) (Max) (mA) (Max) (mV) Offset Drift Operating (Typ) Temp. Range (µV/°C) (°C) 16TSSOP, 16VQFN 3.95 20TSSOP 5.60 Pin/Package Price* 5SC70, 5SOT-23 5SC70, 5SOT-23 8SOIC, 5SOT-23, 8VSSOP 5SOT-23, 6SOT-23 5SOT-23, 8SOIC 0.30 0.65 1.55 0.80 0.90 Amplifiers OPA314 OPA376 OPA140 OPA320 LMP2011 1.8 2.2 4.5 1.8 2.7 5.5 5.5 36 5.5 5 10 10 10 0.9 5 1 1 1 1 1 3 5.5 11 20 3 1.5 2 20 10 4 96 90 140 114 130 0.21 0.95 2 1.75 1.2 0.5 0.025 0.12 0.15 0.06 1 0.26 0.35 1.5 0.015 –40 to 125 –40 to 125 –40 to 125 –40 to 125 –40 to 125 Integrated Solution (Humidity Sensor) Device Size (mm) Package VDD (V) Isupply @ 1/s (Hum + Temp Resolution 11-bit res (Max) (%RH) (uA) Accuracy (%RH) Temp Acc (°C) Operating Range (%RH) Interface ±3 ±0.2 0 to 100 I2C Operating Range (°C) Functional Range (°C) —20 to 85 –40 to 125 Integrated Sensing Solution HDC1000 1.59 x 2.04 WCSP-8 3+5 140-bit *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. 6 | Field Transmitters & Process Instrumentation 2015 1.2 New products are listed in bold red. Texas Instruments Sensor Signal Conditioning Photoelectric Sensors Photoelectric sensors are used in many industrial applications including detecting objects, distinguishing changes in a surface, and acting as an alarm for abnormalities in a process control environment. The primary design challenges are Transimpedance gain, bandwidth, and noise. Texas Instruments offers a variety of high precision Transimpedance amplifiers that address these design challenges. Learn more about the WEBENCH® Photodiode Sensor Designer at: www.ti.com/WEBENCH. Optical (Time of Flight ToF) Sensor Photoelectric Sensor Signal Conditioning Device Resolution (bits) Sample Rate (kSPS) Input Channels 12 1000 2 12/14/16 1000/1000/700 2 Serial SPI 12/14/16 1000/1000/700 2 14 2000 1000/680/400 /100 Supply Voltage (V) Power (Typ) (mW) EVM 4.3 SP1202S03RB-PCB –40 to 85 4.75 to 5.25 45 ADS8353EVM-PDK –40 to 125 Serial SPI 4.75 to 5.25 45 ADS8354EVM-PDK –40 to 125 2 Serial SPI 2.7 to 5.5 ADS7945EVM-PDK –40 to 85 1 Serial SPI 2.7 to 3.6 10.5 5.5/4.2/2.6 /0.7 ADS8881EVM-PDK Interface Operating Temp. Range (°C) Pin/Package Price* SAR ADCs ADC122S101 ADS7253/7853/ 8353 ADS7254/7854/ 8354 ADS7945 ADS8881/3/5/7 Device 18 Resolution Sample Input (bits) Rate (kSPS) Channels Serial SPI, QSPI, Serial I/O 2.7 to 5.25 Supply Interface Voltage (V) –40 to 85 8VSSOP 16QFN, 16TSSOP 16QFN, 16TSSOP 16WQFN 10VSSOP, 10SON 1.94 7.95 3.50 4.00 3.95 Power (Typ) (mW) SNR (dB) EVM Operating Temp. Range (°C) Pin/Package Price* 0.555/0.6/ 0.69 /0.78/0.9 49/61/70/ 70/71 ADS7042EVM-PDK –40 to 125 8QFN, 8VSSOP 2.10 Delta-Sigma ADCs ADS7040/7041/ 7042/7043/7044 Device 8/10/12/ 12/12 Vs (Min) (V) 1000 1 Serial SPI 1.8 to 3.6 Offset Voltage Bias Offset Drift Vs (Max) @ 25°C (Max) Current GBW (Typ) (Typ) Slew Rate (V) (mV) (Max) (pA) (MHz) (µV/°C) (Typ) (V/µs) Iq per ch. (Max) (mA) Operating Temp. Range (°C) Pin/Package Price* Amplifiers LMP7721 LMV791 LMV861 LMV793 OPA320 OPA657 OPA381 OPA314 LMV601/2/4 OPA847 OPA140 (High voltage) Device 1.8 1.8 2.7 1.8 1.8 8 2.7 1.8 2.7 10 5.5 5 5.5 5 5.5 12 5.5 5.5 5.5 12 0.15 1.35 1 1.65 0.15 2.6 0.025 2.5 4 0.1 0.02 1 0.1 0.1 0.2 2 (Typ) 3 10 200 — 17 17 31 88 20 1600 18 3 1 3900 1.5 1 0.7 –1 1.5 12 0.03 1 1.7 1.5 10.5 9.5 18 24 10 700 12 1.5 1 950 1.7 1.75 2.84 1.15 1.45 16.3 1 0.21 0.17 18.9 –40 to 125 –40 to 125 –40 to 125 –40 to 125 –40 to 125 –40 to 85 –40 to 125 –40 to 125 –40 to 125 –40 to 85 8SOIC 6SOT 5SC70 5SOT-23, 8SOIC 5SOT-23, 6SOT-23 5SOT-23, 8SOIC 8SON, 8VSSOP 5SC70, 5SOT-23 6SC70/8SOIC/14SOIC 8SOIC, 6SOT-23 4.70 0.60 0.65 0.45 0.80 7.14 0.75 0.30 0.20 2.00 4.5 36 0.12 10 11 0.35 20 2 –40 to 85 8SOIC, 5SOT-23, 8VSSOP 1.55 Vs (Min) (V) Vs (Max) (V) Iq (Typ) (µA) Auto Ranging Lux Range (Nom) (k) Operating Temp. Range (°C) Pin/Package Price* Yes 0.01 to 83 –40 to 85 USON (6) — IR Rejection Human Eye (%) Response Interface Integrated Sensing Solution OPT3001 1.6 3.6 2 *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. Texas Instruments 99 Yes I2C New products are listed in bold red. Preview products are listed in bold teal Field Transmitters & Process Instrumentation 2015 | 7 Sensor Signal Conditioning & Integrated Sensing Solutions Analog Switches Device r_on (Typ) (ohms) Configuration r_on Flatness (Typ) (ohms) v + (v) min v + (v) max HBM ESD Protection (kV) ON Time (Typ) (ns) OFF Time (Typ) (ns) Operating Temp. Range (°C) TS5A3166 SPST 0.9 0.15 1.65 5.5 2 4.5 9 –40 to 85 TS5A3357 TS5A4596 SP3T SPST 2.5 8 6 1.5 1.65 2.7 5.5 5.5 2 2 6.5 12 3.7 9 –40 to 85 –40 to 85 Pin/Package Price* 5SC70, 5SOT-23, 5DSBGA 8US8, 8WCSP 5SC70, SOT-23 0.22 0.59 0.20 Current Shunt Monitors Device Vs (Min) (V) INA226 INA282 LMP92064 Vs (Max) CMRR (Min) (V) Iq (Max) (mA) (dB) 2.7 2.7 4.5 5.5 18 5.5 0.33 0.9 — 126 120 110 Common Offset Voltage Mode Range (Max) (mV) 0 to 36 –14 to 80 –0.2 to 2 0.01 0.07 0.06 Offset Drift (Typ) (µV/°C) 0.02 0.3 0.28 EVM Operating Temp. Range (°C) Pin/Package Price* INA226EVM INA282-286EVM LMP92064EVM –40 to 125 –40 to 125 –40 to 105 10VSSOP 8SOIC 16WSON 1.40 1.25 1.99 Temperature Sensor ICs Device Type ADS1018 ADC Vs Local Sensor Vs (Min) (Max) Temp. Accuracy (Max) Sensor Gain (V) (V) Range (°C) (± °C) (mV/°C) 2 5.5 –40 to 125 1 — Feature EVM Operating Temp. Range (°C) Pin/Package Price* SPI PGA, ADC ADS1118EVM –40 to 125 10VSSOP, 10X2QFN 1.15 Thermistor alternative Temp. sensor and switch Fault queue LMT84-7EVM –50 to 150 5SC70 0.20 LM57B10EB –50 to 150 8WSON 0.65 TMP102EVM –40 to 125 6SOT 0.60 Interface LMT87 Analog 2.7 5.5 –50 to 150 2.7 –13.6 — LM57 Switch 2.4 5.5 –50 to 150 1.5 –5.16 to 12.92 — TMP102 Digital 2.7 5.5 –25 to 85 2 — I2C, SMBus New products are listed in bold red. *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. WEBENCH® Design Center Saves Development Time and Cost WEBENCH Design Center online design and prototyping tools put an awardwinning online design environment right at your fingertips. Design, optimize, generate your prototype and download your test vectors—all online. And you can do it all for free, anywhere, anytime. Select It—Choose from only those parts that meet your specifications • Input your design requirements. • Choose a recommended part from a customized list. Design It—Create your custom BOM using readily available parts • Tune your design quickly with the optimization tool to balance design objectives for efficiency and footprint. • Adjust components and use charts to make design decisions on a wide selection of electrical characteristics. • Exchange parts and use bill-of-materials graphs for easy external component selection based on efficiency, footprint, cost or vendors. 8 | Analyze It—Solve your design problems before you prototype • Simulate your circuit and evaluate performance using electrical and thermal simulations. • Simulate electrical characteristics, choose probe points and examine waveforms to determine performance. • Simulate thermal behavior and your circuit on a PCB in your defined environment and view color heat maps. • Overlay alternate circuits and compare results to get optimal performance. Build It—Save weeks getting your final design into production • Request samples and purchase parts or demo boards. • Receive your custom prototyping kit the next business day. • Download your automatically generated CAD files, assembly details, test instructions and complete performance results. Get more information: www.ti.com/webench Field Transmitters & Process Instrumentation 2015 Texas Instruments Sensor Signal Conditioning & Integrated Sensing Solutions Inductive Sensing Inductive Sensing Inductive Sensing is a contact-less, short-range sensing technology that enables lowcost, high-resolution sensing of conductive targets in the presence of dust, dirt, oil, and moisture, making it extremely reliable in hostile environments. Using a coil which can be created on a PCB as a sensing element, the LDC1000 enables ultra-low cost system solutions. Inductive sensing technology enables precise measurement of linear/angular position, displacement, motion, compression, vibration, metal composition, and many other applications in markets including automotive, consumer, computer, industrial, medical, and communications. Inductive sensing offers better performance and reliability at lower cost than other, competitive solutions. Key Features • Gate driver with 8-60 V supply voltage Magnet-Free Operation • Sub-Micron Precision • Adjustable Sensing Range (via Coil Design) • Lower System Cost • Remote Sensor Placement (Decoupling the LDC from Harsh Environments) • High Durability (by Virtue of ContactLess Operation) • Insensitivity to Environmental Interference (such as Dirt, Dust, Water, Oil) Inductive Displacement Sensor Inductive Sensing Device L RP Resolution Resolution (bits) (bits) Sensor Frequency Range Supply Input Voltage Channels Interface (V) Supply Current (Active) (mA) Supply Current (Sleep) (uA) EVM Operating Temp. Range (°C) Pin/Package Price* LDC1000 24 16 5kHz – 5MHz 1 SPI 5 1.7 (Without LC tank) 250 LDC1000EVM –40 to 125 16WSON 2.95 LDC1041 24 8 5kHz – 5MHz 1 SPI 5 1.7 (Without LC tank) 250 LDC1041EVM –40 to 125 16WSON 2.50 LDC1051 — 8 5kHz – 5MHz 1 SPI 5 1.7 (Without LC tank) 250 LDC1051EVM –40 to 125 16WSON 1.92 LMP91300 — 16 5kHz – 5MHz 1 SWIF 6.5 to 40 3 — –40 to 125 24WQFN, 20DSBGA 2.12 *Suggested resale price in U.S. dollars in quantities of 1,000 Texas Instruments LMP91300EVM (Order through product line) New products are listed in bold red. Field Transmitters & Process Instrumentation 2015 | 9 Sensor Signal Conditioning & Integrated Sensing Solutions Capacitive Sensing Capacitive Sensing Capacitive sensing with grounded capacitor sensors is a very low-power, low-cost, high-resolution contactless sensing technique that can be applied to a variety of applications ranging from proximity detection and gesture sensing to material analysis and remote liquid level sensing. The sensor in a capacitive sensing system is any metal or conductor, allowing for low cost and highly flexible system design. Capacitive Displacement Sensor Capacitive Sensing Device FDC1004 Description 4-Channel capacitanceto-digital converter for capacitive sensing solutions Supply Programmable Shield Supply Current Standby Sampling # Input Input Drive Voltage (Active) Current Rate Input Range Common Resolution Capability (V) (uA) (uA) Interface (°C) Channels (pF) Mode (pF) (fF) (pF) 4 ±15 100 *Suggested resale price in U.S. dollars in quantities of 1,000 10 | Field Transmitters & Process Instrumentation 2015 0.5 400 3.3 750 29 I2C 100/200/400 Operating Temperature Range (°C) Pin/Package Price* –40 to 85 10-pin WSON 2.50 New products are listed in bold red. Texas Instruments Sensor Signal Conditioning & Integrated Sensing Solutions Hall Sensors and Z-Domain Sensing DRV5000 Hall Effect Sensors Modern day silicon-based Hall effect sensors for commutation in sensored-brushless DC motors as well as object recognition, index counting, open and close door applications and more in a wide range of industrial and automotive applications. TI’s DRV5000 Hall sensors are rugged and fully-protected with digital latch, digital switch, and analog bipolar outputs to suit a diverse range of applications. The Hall effect is a sensing technology that detects and can measure the strength of the magnetic field as an indicator of distance or position without physical contact. Hall effect sensors are commonly used in detecting position, speed, or acceleration of an object by sensing the magnetic field generated by the object. Magnetic Hall Effect Displacement Sensor Hall Sensors Device Description Supply Voltage (VCC) (Min)(V) Supply Voltage (VCC) (Max)(V) Output Type Operating Temperature Range (°C) Package Price* DRV5013 2.5V to 38V Digital latch hall effect sensor 2.5 38 Open drain Latch –40 to 125 SOT-23, TO-92 0.26 DRV5023 2.5V to 38V Digital switch hall effect sensor 2.5 38 Open drain Switch –40 to 125 SOT-23, TO-92 0.26 DRV5033 2.5V to 38V Digital omnipolar-switch hall effect sensor 2.5 38 Open drain Omnipolar switch –40 to 125 SOT-23, TO-92 0.26 DRV5053 2.5V to 38V Analog bipolar hall effect sensor 2.5 38 0.2V to 1.8V Analog bipolar –40 to 125 SOT-23, TO-92 0.31 Z-Domain Sensing Device ADC Resolution TLV320AIC3262 24 bits DAC Resolution 24 bits *Suggested resale price in U.S. dollars in quantities of 1,000 Texas Instruments Sample Rate (SPS) 192k Channels 2 ADC/2 DAC Control Interface I2C, SPI Digital Audio Interface I2S, TDM, DSP, L&R, PCM Additional Features Supply Voltage (V) MiniDSP 1.8, 3.3 (processing engine) Operational Pin/ Temp Price* Package Range (°C) EVM TLV320AIC3262EVM-U –40 to 85 81DSBGA 4.95 New products are listed in bold red. Field Transmitters & Process Instrumentation 2015 | 11 Embedded Processing Microcontrollers and processors from Texas Instruments offer a broad range of performance and power consumption options. Whether your system needs the MSP430 MCU with ultra-low power consumption; the C5000™ DSP platform with superior signal processing, an FFT accelerator core, and low power architecture; the Sitara™ AM335x ARM® Cortex™-A8 family with integrated multi-protocol industrial communications support to connect various kinds of sensors in real-time for better automation; TI is tailored to meet your design challenges. The MSP430™ MCU Value Line brings 16-bit performance, up to 16 MHz operation, integrated intelligent peripherals, and ultra-low power at lowcost 8-bit MCU prices to cost sensitive applications. Learn more at www.ti.com/430value. MSP430 Ultra Low Power MCU Sigma Delta ADC Sample Rate (Ksps) NVM Memory (KB) SRAM (KB) Op Amp PWM Comparator Temp. Sensor — 200 32 (FLASH) 1 2 Yes Yes Yes MSP430i2040 — 24 bit MSP430FR5739 10-bit — MSP430FR5969 12-bit — MSP430F6736 10-bit 24 bit MSP430FR6989 12-bit — Integrated MCU Flow Metering Solutions 2 200 200 200 200 16 (FLASH) 16(FRAM) 64(FRAM) 128(FLASH) 128(FRAM) — 1 2 8 2 — — — — — Yes Yes Yes Yes Yes — Yes Yes — Yes MSP430FR6989 MSP430FW429 12-bit — 200 — 128(FRAM) 64(FLASH) 2 2 — — Yes Yes Yes Yes Device Sigma Delta ADC Device SAR ADC Operating Temp. Range (°C) Pin/Package Price* Integrated MCU Solutions MSP430F2274 10-bit — — NVM Memory (KB) SRAM (KB) Timers 2 2 4, 24 bit ΣΔ ADC with 32KB (Flash) PGA MSP430i2040 Brown Out Watch-dog Yes Yes 2.50 Yes Yes Yes Yes Yes 40VQFN, –40 to 85 38TSSOP, 49DSBGA –40 to 85 28TSSOP, 32VQFN –40 to 85 38TSSOP, 40VQFN –40 to 85 48VQFN –40 to 85 100LQFP, 80LQFP –40 to 85 100LQFP, 80LQFP Yes — –40 to 85 –40 to 85 100LQFP, 80LQFP 64LQFP 4.50 3.55 Pin/Package Price* RTC USCI_A USCI_B EVM Operating Temp. Range (°C) Yes 1 1 EVM430-I2040S –40 to 85 1.70 2.45 2.35 3.25 4.50 28TSSOP, 32VQFN 1.70 ARM Processors Device ARM CPU TM4C1231C3PM AM1810 ARM Cortex-M4 ARM9 AM3356/3357/3359 ARM Cortex-A8 Frequency ARM MIPS (MHz) (Max) (Max) 80 375, 456 100 DMIPS 375, 456 600, 1200, 300, 600, 800 1600 Interfaces Supported IO Supply (V) EVM Pin/Package Price* — PROFIBUS® PROFIBUS®, EtherCAT®, PROFINET®, PowerLink 1.2, 3.3 1.8, 3.3 EK-TM4C123GXL MityARM-1810 64LQFP 361NFBGA 2.30 15.53 1.8, 3.3 TMDSICE3359 324NFBGA 12.40 EVM Operating Temp. Range (°C) Pin/Package Price* TMDXRM42HDK TMDXRM46HDK TMDXRM48HDK –40 to 105 –40 to 105 –40 to 105 100LQFP 144LQFP 144LQFP 5.81 15.29 24.20 Safety Processors Device RM42L432 RM46L450 RM48L952 ARM CPU Frequency (MHz) (Max) Flash (KB) ARM Cortex R4F ARM Cortex R4F ARM Cortex R4F 100 200 220 384 1024 3072 Data Flash RAM (KB) (KB) 16 64 64 32 128 256 IO Supply (V) Core Supply (V) 3.3 3.3 3.3 1.2 1.2 1.2 Digital Signal Processing (DSP) Device TMS320C5515 TMS320C6747 DSP C55x C674x DSP Instruction Type Frequency (MHz) (Max) DSP Peak MMACS Fixed Point Fixed/Floating-Point *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. 12 | Field Transmitters & Process Instrumentation 2015 100, 120 375, 456 200, 240 3000, 3648 Hardware Acceleration EVM Pin/Package Price* FFT Coprocessor — TMDX5515EZDSP TMDSOSKL137 196NFBGA 256PBGA 9.10 11.73 New products are listed in bold red. Texas Instruments Interface Texas Instruments offers a comprehensive interface portfolio enabling system connectivity. With a variety of interface standards such as the traditional analog (4-20 mA) interface, HART®, RS-485, IO-Link, and CAN, TI delivers a variety of options for your interface needs. Combined (U/I/SIO/IO-Link) Terminal Integrated DAC and 4mA to 20mA Transmitters Resolution DAC: (bits) Channels Interface Device DAC161S997/P997 Output Type Supply HART Voltage Power (Typ) compatible (V) (mW) Tx Type input EVM Operating Temp. Range (°C) Pin/Package 16 1 SPI/SWI Current 2.7 to 3.6 0.33/0.5 2-wire Yes DAC161S997EVM –40 to 105 16WQFN 24HTSSOP, 40VQFN 24HTSSOP, 40VQFN DAC8750/7750 16/12 1 SPI Current 10 to 36 105 3-wire Yes DAC8760EVM –40 to 125 DAC8760/7760 16/12 1 SPI Current and voltage 10 to 36 105 3-wire Yes DAC8760EVM –40 to 125 EVM Operating Temp. Range (°C) Pin/Package Price* 1.75 — — DAC Device Resolution (bits) DAC: Channels Interface Output Type 12/14/16 1 Serial SPI Voltage 2 to 5.5 0.14 6 DAC7311EVM –40 to 125 6SC70 0.95 12 12 12 1 1 1 Serial SPI Serial I2C Serial SPI Voltage Voltage Voltage 2.7 to 5.5 2.7 to 5.5 2.7 to 5.5 0.27 0.38 0.64 5 8.5 8 — — DAC121S101EVAL –40 to 105 –40 to 125 –40 to 105 12USON 6SOT, 6WSON 6SOT, 8VSSOP 1.40 1.15 1.15 GBW (Typ) (MHz) Slew Rate (Typ) (V/ µs) CMRR (Typ) (dB) DAC7311/8311/ 8411 DAC7551 DAC121C081 DAC121S101 Supply Power Settling Voltage (V) (Typ) (mW) Time (µs) Price* Interface Amplifiers Device Vs (Min) Vs (Max) (V) (V) Iq per Offset ch. (Max) Voltage (mA) (Max) (mV) Offset Drift (Typ) (µV/°C) Operating Temp. Range (°C) Pin/Package Price* OPA333 OPA330 1.8 1.8 5.5 5.5 0.35 0.35 0.16 0.16 130 115 0.025 0.035 0.01 0.05 0.02 0.02 –40 to 125 –40 to 125 5SOT-23, 5SC70, 8SOIC 5DSBGA, 5SC70, 5SOT-23, 8SOIC OPA317 1.8 5.5 0.3 0.15 108 0.035 0.1 0.05 –40 to 125 5SC70, 5SOT-23, 8SOIC OPA348 OPA170 OPA188 OPA171 OPA277 2.1 2.7 4 2.7 4 5.5 36 36 36 36 1 1.2 2 3 1 0.5 0.5 0.8 1.5 0.8 82 120 146 104 140 0.065 0.145 0.51 0.595 0.825 5 1.8 0.025 1.8 0.02 4 0.3 0.03 0.3 0.1 –40 to 125 –40 to 125 –40 to 125 –40 to 125 –40 to 85 5SC70, 5SOT-23, 8SOIC 5SOT, 5SOT-23, 8SOIC 5SOT-23, 8SOIC, 8VSSOP 5SC70, 5SOT-23, 8SOIC 8SOIC, 8VSON 0.95 0.70 0.55 0.75 0.20 0.40 0.80 0.40 1.05 IO-Link Device Vs (min) Vs (Max) Peak Isolation (V) (V) Rating (Vpk) SN65HVD101/2 9 36 50 Indicators Protection Internal Reference EVM Operating Temp. Range (°C) Pin/Package Price* Current limit, Power-good, Remote wake-up OVP, OCP, OTP, Reverse polarity Yes/No SN65HVD101EVM –40 to 105 20VQFN 2.50 *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. Texas Instruments New products are listed in bold red. Field Transmitters & Process Instrumentation 2015 | 13 Interface 4mA to 20mA Transmitters Vs (Min) (V) Vs (Max) Full Scale Input (V) Range (µA) Non-Linearity Output Zero Span Error Offset Voltage Offset Drift (Max) (%) Error (Max) (µA) (Max) (%) (Max) (mV) (Typ) (µV/°C) Operating Temp. Range (°C) Pin/Package Price* –55 to 125 –40 to 125 –55 to 125 –55 to 125 8SOIC 8SON, 8VSSOP 10SON 20VQFN 1.25 0.90 0.65 1.90 4-20mA Transmitter XTR115/6 XTR117 XTR111 XTR300 Device 7.5 7.5 8 10 36 40 40 40 200 250 — — Vs Vs (Min) (Max) Application (V) (V) 0.01 0.02 0.02 0.1 Full Scale Input Range (V) NonLinearity (Max) (%) 25 50 — — 0.2 0.4 0.1 0.12 0.25 0.5 1.5 1.9 6 6 1.5 6 Output Zero Offset Offset Drift Operating Error (Max) Span Error Voltage (Typ) Temp. Range (µA) (Max) (%) (Max) (mV) (µV/°C) Sensor Excitation (°C) Pin/ Package Price* Analog Signal Conditioning and 4-20mA Transmitters XTR108 RTD 7.5 24 0.005 to 0.32 0.01 50 (Typ) 1 (Typ) 0.05 0.1 Two 500µA –55 to 125 24SSOP 3.35 XTR105/ 12/14 RTD 7.5 36 0.005 to 1 0.01 25 0.2 0.025 1.5 –40 to 85 14SOIC 4.00 XTR106 Strain gauge 7.5 36 0.005 to 1 0.01 25 0.2 0.025 1.5 Two 800µA/ 250µA/100µA 2.5V or 5V Reference –55 to 125 14SOIC 4.00 Isolated Integrated # of Rating Transformer Number TX/RX (kVrms) Driver of Nodes Duplex Signaling Rate (Max) (Mbps) ESD (kV) Fail Safe ICC (Max) (mA) RS-485 Device Supply Voltage (V) Operating Temp. Range (°C) Pin/Package Price* EVM RS-485 (Profibus) SN65HVD1176 1/1 — — 160 Half 40 10 Idle, Open, Short 6 ISO1176 1/1 2.5 No 256 Half 40 16 Idle, Open, Short 10 ISO1176T 1/1 2.5 Yes 256 Half 40 10 Idle, Open, Short 18 Device # of Common Number TX/RX Isolated Mode Range of Nodes Duplex Signaling Rate (Max) (Mbps) ESD (kV) 5 — 3.15 to ISO1176EVM 5.5 3 to 5.5 ISO1176TEVM –40 to 85 8SOIC 1.55 –40 to 85 16SOIC 3.00 –40 to 85 16SOIC 3.30 Pin/ Package Fail Safe ICC (Max) (mA) Supply Voltage (V) EVM Operating Temp. Range (°C) Price* RS-485 SN65HVD72/ 75/78 1/1 No –7 to 12 200 Half 0.25/20/50 16 Idle, Open, Short 0.95 3.3 SN65HVD72EVM –40 to 125 8SOIC, 8SON, 8VSSOP 0.70 SN65HVD82 1/1 No –7 to 12 256 Half 0.25 16 0.9 5 RS-485 HD EVM –40 to 85 8SOIC 1.00 SN65HVD888 1/1 No –7 to 12 256 Half 0.25 16 0.9 5 RS485-HF-DPLX-EVM –40 to 85 8SOIC 1.10 SN65HVD3080E 1/1 No –7 to 12 256 Full 20 16 Idle, Open, Short No Idle, Open, Short 0.75 5 — –40 to 85 10VSSOP 1.20 CAN Device I/O and V_CC Short-Circuit HBM ESD Levels (V) Protection (V) Protection (kV) Supply Current (Typ) (mA) SN65HVD255 5 –27 to 40 12 10 ISO1050 5 –27 to 40 4 10.3 SN65HVD252 5 –27 to 40 12 13 *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. 14 | Field Transmitters & Process Instrumentation 2015 Operating Temp. Range (°C) Pin/Package Price* Features EVM “Turbo” CAN, “Ideal Passive”, V_RXD Level Shift Isolated CAN (2.5kVRMS and 5kVRMS) DeviceNet CAN, with VREF SN65HVD255DEVM –40 to 125 8SOIC 0.50 ISO1050EVM -55 to 105 16SOIC, 8SOP 1.55 — –40 to 85 8SOIC 0.80 New products are listed in bold red. Texas Instruments Interface Ethernet PHY Part Number Interface Cable Length (m) LED (#) Supply Voltage (V) Datarate (Mbps) JTAG IEEE 1149.1 DP83620 MII, RMII 150 3 3.3 10/100 Yes Port Count Single DP83630 MII, RMII 150 3 3.3 10/100 Yes Single DP83640 MII, RMII 150 3 3.3 10/100 Yes Single DP83848I MII, RMII, SNI 150 3 3.3 10/100 Yes Single DP83848K MII, RMII 137 2 3.3 10/100 No Single DP83849IF MII, RMII, SNI 137 6 3.3 10/100 Yes Dual Special Features FX support, Cable diagnostics IEEE 1588 PTP, FX support, Cable diagnostics, P2P upgrade from the DP83620 IEEE 1588 PTP, FX support, Cable diagnostics Deterministic delay Deterministic delay FX support, Cable diagnostics, Flexible port management Operating Temperature Range (°C) Pin/Package Price* –40 to 85 WQFN 1.52 –40 to 85 WQFN 4.78 –40 to 85 LQFP 4.98 –40 to 85 LQFP 2.20 –40 to 85 WQFN 0.95 –40 to 85 TQFP 4.75 Power over Ethernet (PoE) Device PD Power Duty Level Cycle (W) (%) rDS(on) PoE per FET Driven/ PoE Current Inrush PoE (Typ) Active Limit (Min) Limit (Typ) Standards Fault UVLO (mOhms) Clamp (mA) (mA) Supported Response Switching Frequency TPS2378 25 — — — 420 No 850 140 TPS23754 25 78 Programmable synchronizable Unified 430 Yes 850 140 TPS23751 25 85 Programmable Yes 450 No 850 140 802.3 at type 2 802.3 at type1, 2 802.3 at type1, 2 Operating Temp. Range Pin/ (°C) Package EVM Price* 8SO PowerPad 1.00 Auto retry TPS23754EVM-420 –40 to 125 20HTSSOP 1.25 Auto retry TPS23751EVM-104 –40 to 85 1.10 Auto retry TPS2378EVM-105 –40 to 85 16HTSSOP Wireless Connectivity Device Device Type Tx Rx Data Frequency Rate Operating Current Power (Max) Voltage (Min) (Max) Range (mA) (dBm) (V) (kbps) (GHz) Modulation Techniques Sensitivity (Best) Additional Antenna (dBm) Features Connection 17 16 2-FSK, 2-GFSK 4-FSK, 4-GFSK MSK, ASK, OOK –123 — Differential 2.4 250 2 to 3.6 20.5 4.5 DSSS –97 MCU/ADC Differential CC2530DK 2.4 1000 2 to 3.6 17.9 0 GFSK –93 MCU/ADC Differential CC2541EMK sub1-GHz CC2530 SoC CC2541 SoC CC3000 MOD Network Processor 2.4 7000 2.7 to 4.8 92 18.3 DSSS, CCK, OFDM –97.5 TRF7970A Transceiver 13.56 848 2.7 to 5.5 10 23 ASK/PSK/FSK, ISO14443A/B, ISO15693 — — Dual lnterface Transponder 13.56 848 0 (RF field powered) to 3.6 0 0 PSK, ISO14443B — — *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. Texas Instruments –40 to 85 2 to 3.6 Transceiver RF430CL330H EVM CC1120EMK-420-470 CC1120EMK-169, CC1120EMK-868-915 CC1120EMK-998 200 CC1120 Operating Temp. Range Pin/ (°C) Package Price* 5 × 5 mm QFN 32 2.20 –40 to 125 40QFN 3.20 –40 to 85 40VQFN 2.00 CC3000EM CC3000BOOST –20 to 70 Module 9.99 Single ended TRF7970AEVM, TRF7970ATB –40 to 110 QFN32 3.10 Single ended RF430CL330HTB –40 to 85 TSSOP14, QFN16 0.85 Embedded Single ended TCP/IP stack New products are listed in bold red. Field Transmitters & Process Instrumentation 2015 | 15 Interface Isolation Isolation Rating (Vrms) Device ISO7842 Peak Isolation Rating (Vpk) 5700 Working Forward/ Speed Voltage Reverse (Max) (Vpk) Channels (Mbps) 8061 2121 2/2 Supply Voltage (V) 100 Default Output Propagation Delay (Typ) (ns) EVM Operating Temp. Range (°C) Pin/ Package 2.25 to 5.5 Price* High 11 ISO7842-EVM –55 to 125 16SOIC 3.49 31 ISO7342CEVM –40 to 125 16SOIC 1.80 ISO7342C 3000 4242 1414 2/2 25 3 to 5.5 High / Low (F) ISO7140/1(F)CC ISO7142CC 2500 4242 560 4/0, 3/1, 2/2 50 2.7 to 5 High / Low (F) 23 ISO71XXDBQ-EVM –40 to 125 16SSOP 1.90 ISO7131CC 2500 4242 560 2/1 50 2.7 to 5 High 23 ISO71XXDBQ-EVM –40 to 125 16SSOP 1.60 ESD/EMI Protection Device Application IEC 61000-4-2 IEC 61000-4-2 Contact Air-Gap (± kV) (± kV) Number of Channels Breakdown IO Capacitance Voltage (Min) (Typ) (pF) (V) IO Leakage Current (nA) Operating Temp. Range (°C) Pin/Package Price* ESD Protection TPD1E10B09 TPD2E007 TPD4E1U06 TPD6F002 TPD2E007 TPD1E10B09 Device Interface Interface, Wheatstone bridge Ethernet, Profinet, LED, LCD LCD RS-232/485, Profibus, CAN Keypad, General purpose 20 20 1 10 9.5 100 –40 to 125 2X2SON 0.04 8 15 2 15 14 50 –40 to 85 3SC70, 4DSLGA 0.20 15 15 4 0.8 6.5 10 −40 to 125 SOT-23, SC70 0.08 20 30 6 34 6 20 −40 to 85 SON 0.21 8 15 2 10 ±14 50 −40 to 85 SC70, DSLGA 0.2 20 20 1 10 ±9.5 100 −40 to 125 X1SON 0.05 Ctotal (Typ) (pF) Rline (Typ) (ohms) fc (MHz) Operating Temp. Range (°C) Pin/Package Price* 30 30 34 17 100 100 100 100 108 108 100 200 –40 to 85 –40 to 85 –40 to 85 –40 to 85 10DSBGA 15DSBGA 12SON 16WSON 0.17 0.21 0.21 0.25 IEC 61000- IEC 61000Breakdown 4-2 Contact 4-2 Air-Gap Number of Voltage (Min) Application (± kV) (± kV) Channels (V) EMI Protection TPD4F202 TPD6F202 TPD6F002 TPD8F003 Keypad, LCD Keypad, LCD Keypad, LCD Keypad 25 25 20 12 25 25 30 20 4 6 6 8 *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. 16 | Field Transmitters & Process Instrumentation 2015 6 6 6 6 New products are listed in bold red. Texas Instruments Power Management Solutions Texas Instruments (TI) offers a complete line of high-performance power management products designed for industrial applications. The devices shown are well-suited for powering sensors that may require low noise and high efficiency in both line- and loop-powered (4-20 mA) topologies. CBYP VIN IN OUT CIN 10nF VOUT CBYP 10µF R1 10nF EN FB TPS7A4901 COUT 10µF R2 NR/SS CNR/SS GND 10nF Linear Regulators VIN (Min) VIN (Max) VOUT (Min) VOUT IOUT (V) (V) (V) (Max) (V) (Max) (A) Iq (Typ) (mA) Accuracy (%) Output Options Pin/Package Price* Wide VIN Linear Regulators (VIN ≥ 24V) TPS7A4001 LM2936 TPS7A1601 TPS7A4101 TPS7A4901 TPS70933/50 LP2951 7 5.5 3 7 3 2.7 2 100 60 60 50 36 30 30 1.2 3 1.2 1.2 1.2 3.3/5 1.2 90 5 18.5 48 33 3.3/5 29 0.05 0.05 0.1 0.05 0.15 0.15 0.1 0.02 0.015 0.005 0.02 0.06 0.001 0.075 2.5 2 2 2.5 1.5 2 1.4 Adjustable Fixed Adjustable or fixed Adjustable Adjustable Fixed Adjustable 8MSOP-PowerPAD 3TO, 4SOT, 8SOIC, 8VSSOP 8 MSOP-PowerPAD, 8SON 8MSOP-PowerPAD 8MSOP-PowerPAD 5SOT-23, 6SON 8SOIC 1.05 0.62 1.40 0.35 1.10 0.39 0.27 2.5 1 1.2 0.9 1.2 6.1 5.5 11.8 6.2 4.5 0.15 0.8 0.8 0.15 0.25 0.065 0.18 1.4 0.045 0.012 — — 2 3 2 Fixed Adjustable Fixed Adjustable/Fixed Fixed 5DSBGA, 5SOT-23 8SO PowerPAD, 8WSON 12WSON 5SC70, 6SON, 6WSON 5SOT-23, 4DSBGA, 4X2SON 0.24 0.80 1.30 0.36 0.14 Linear Regulators (VIN < 24V) LP2985-N LP3878-ADJ LP38798 TPS71701/717xx LP5907 2.5 2.5 3 2.5 2.2 16 16 20 6.5 5.5 Voltage References REF5030 REF3230 LM4132 REF3330 REF3030 LM4030 VIN (Min) (V) VIN (Max) (V) VOUT (V) IOUT/Iz (Max) (mA) Iq (Typ) (µA) Drift @ 0°C to 125°C (Max) (ppm/°C) Drift @ –40°C to 125°C (Max) (ppm/°C) Initial Accuracy (%) Pin/Package Price* 3.2 3.05 2.2 3.2 3 2.5/4.1 18 5.5 5.5 5.5 5.5 6 3 3 1.8 to 4.1 3 3 2.5/4.1 10 10 20 5 25 30 800 100 60 3.9 42 120 3 7 — — 50 — 3 26 20 30 75 20 0.05 0.2 0.05 0.15 0.2 0.05 8SOIC, 8VSSOP 6SOT-23 5SOT-23 3SC70, 3SOT-23 3SOT-23 5SOT-23 1.35 1.70 0.78 0.85 0.60 0.45 System Timer VIN (Min) (V) VIN Supply Programmable (Max) Current Timer Interval (V) (µA) (s) Interrupt Timekeeping Pulsewidth Accuracy (Max) (s) (%) MOSFET driver Watchdog Function Operating Temp. Range (°C) Pin/Package Price* Yes Yes –40 to 125 –40 to 125 MSOP-10 MSOP-10 0.60 0.60 Ultra-Low Power System Timer TPL5000 TPL5100 1.8 1.8 5.5 5.5 0.03 0.03 1 to 64 16 to 1024 0.031 0.031 ±10 ±10 No Yes Charge Pump VIN VIN (Min) (V) (Max) (V) VOUT (V) IOUT (Max) (A) Iq (Typ) (mA) Efficiency (Typ) (%) Special Features EVM Operating Temp. Range (°C) Pin/Package Price* 0.026 0.078 98 Enables True-Zero Amp Outputs LM7705MMEVAL –40 to 125 8VSSOP 0.19 Fully Integrated DC/DC Buck Modules LM7705 3 5.25 –0.232 *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. Texas Instruments Field Transmitters & Process Instrumentation 2015 | 17 Power Management Solutions Switching Regulators VIN VIN VOUT VOUT (Min) (Max) (Min) (Max) (V) (V) (V) (V) IOUT (Max) (A) Switching Frequency (Max) (kHz) Topology 1000 Synch buck Switch Current Limit (Typ) (A) Iq (Typ) (mA) Duty Cycle (Max) (%) Special Features Pin/Package Price* — 8SO PowerPAD, 8WSON 1.57 8SON, 8VSSOP 0.88 8VSSOP, 8WSON 28DSBGA 10DSBGA 1.05 1.50 1.20 16HTSSOP 1.65 8WSON 0.85 6SON 0.50 SOT23-5 0.50 6SON 1.15 6SON 0.68 Wide VIN DC/DC Converters (VIN ≥ 24V) LM5017/ 18/19 7.5 100 1.25 90 0.6/0.3 /0.1 1.3/0.7/0.3 1.75 90 TPS54061/2 4.7 60 0.8 58 0.2/0.05 1100/400 Inverting buck-boost, Synch buck 0.35/0.13 0.09 98 LM25007 LMR24210 LM34919 9 4.5 8 42 42 40 2.5 0.8 2.5 37 24 35 0.5 1 0.6 800 1000 2000 Buck Synch buck Buck 0.725 1.8 0.64 0.5 0.7 0.5 99 94 — LM46000 3.5 60 1 28 0.5 2200 Synch buck 1.35 0.024 99 Enable, Freq. synch, Light load efficiency — Enable — Enable, Freq. synch, Light load efficiency, Power good DC/DC Converters (VIN < 24V) TPS62125 3 17 1.2 10 0.3 1000 Synch buck 0.71 0.013 100 TPS62231 2.05 6 1.8 1.8 0.5 2000 Synch buck 0.84 0.022 100 TPS560200 4.5 17 0.8 6.5 0.5 600 Synch buck 1.35 0.06 — TPS62740 2.2 5.5 1.8 3.6 300 2000 Synch buck 0.6 0.00036 100 TPS61291 0.9 5 2.5 3.3 200 — Synch Boost 1 0.006 — VIN (Min) VIN (Max) VOUT (Min) VOUT IOUT (V) (V) (V) (Max) (V) (Max) (A) Enable, Light load efficiency, Enable, Light load efficiency Enable, Light load efficiency, Power good 4-pin Voltage select Integr. load switch Voltage select bypass function Topology Special Features Pin/Package Price* 8SO PowerPAD, 8WSON 16WQFN 5SOT-23 12SOP 5SOT-23 1.57 Isolated DC/DC Converters LM5017/18/19 7.5 100 — — 0.4 Fly-buck — TPS55010 SN6501 DCR010503/5 TPS60402 2.95 3 4.5 1.8 6 5.5 5.5 5.25 3.3 0 3.3/5 — 20 11 3.3/5 — 0.4 0.25 0.3/0.2 0.06 Fly-buck Push-pull — Half-bridge Enable, Synch rectification, Power good, Freq synch Enable, Isolated 1W, 1kV Isolation, regulated single output see TIDA-00167 (Isolated, ultra-low power DC/DC ) Topology EVM VIN (Min) (V) VIN (Max) (V) VOUT (Min) (V) VOUT IOUT (Max) (Max) (V) (A) Switching Frequency (Max) (kHz) Special Features 0.99 0.90 5.95 0.36 Pin/Package Price* 8SIL 6.25 7PFM 5.85 41B1QFN 1.55 Fully Integrated DC/DC Buck Modules LMZ21701 3 17 0.9 6 — 2500 LMZ14201 6 42 6 42 — 1000 TPS82740 2.2 5.5 1.8 3.3 0.2 2000 *Quantities of 1,000 begin at this suggested resale price in U.S. dollars. 18 | Field Transmitters & Process Instrumentation 2015 Power good, Soft-start, Light load efficiency, EMI tested Synch buck LMZ14201EVAL Enable, Tracking, EMI tested 3-pin Voltage select Synch buck TPS82740AEVM-617 360nA quiescent current TPS82740BEVM-61 integrated load switch Buck LMZ21701EVM New products are listed in bold red. Preview products are listed in bold teal. Texas Instruments Power Management Solutions PowerLab™ Power Reference Design Library The PowerLab library includes an interactive and powerful search engine for design engineers looking for a proven and tested solution to their power-supply requirements. This interactive search tool allows engineers to find designs by application, topology, input type, input voltage or output voltage. Features • Extensive collection of tested power management reference designs. • Hundreds of power-management designs for a wide range of applications and power-conversion topologies. • Reference designs include both isolated and non-isolated designs for lighting, telecommunication, computing, consumer electronics and more. Get more information: www.ti.com/powerlab 4-20mA Current Loop 2-wire Sensor Power Supply PowerLabs Design – PMP6938 Key Features • Small form factor that fits 7mm x 15.5mm x 0.8mm • Input voltage withstands line transients up to 60V • Configured to deliver 3.3V/30mA at 400kHz • Efficiency peaks at 70% at 20mA from 12VIN to 3.3VOUT Texas Instruments Reference Design Includes Schematic and PCB layout Bill of Materials Test Results TI Device: TPS54062 Get more information: www.ti.com/tool/PMP6938 Field Transmitters & Process Instrumentation 2015 | 19 TI Designs When you need a trusted reference design resource, look no further than TI Designs – a comprehensive reference design library spanning and complementing the breadth of TI’s product portfolio. From embedded processors to power management to signal chain designs, TI Designs provides the information you need to quickly evaluate and customize a system and accelerate your time-to-market. Turnkey IO-Link Sensor Transmitter Reference Design – TIDA-00188 Key Features • IO-LINK v1.1 connectivity out of the box (TMG stack, PHY and M12 connector) • Easy connection of in-house sensor to the PCB • RTD performance: maximum measured error: 0.17°C (–200°C to 850°C) • Designed to meet IEC 61000-4-2, IEC 61000-4-4, IEC 61000-4-5 and IEC 60255-5 standards Reference Design Includes • Bill of Materials • User Guides • Design Files Get more information: www.ti.com/tool/TIDA-00188 Small Form Factor, 2-wire 4mA to 20mA Current Loop RTD Temperature Transmitter Reference Design Reference Design – TIDA-00165 Key Features • Small form factor (L x W): 71.12mm x 6mm • Sensor input compatible with 2-, 3- or 4-wire RTD probes • Connects to any RTD from PT100 to PT1000 • Maximum measured error: 0.2°C • Output resolution: 0.76µA • Input power supply range: 10V to 33V DC • Designed to meet IEC-61000-4-5 (1KV Surge DM) requirement Reference Design Includes • Bill of Materials • User Guides • Design Files • Software • Applications Get more information: www.ti.com/tool/TIDA-00165 20 | Field Transmitters & Process Instrumentation 2015 RTD Temperature Transmitter for 2-wire, 4-mA to 20-mA Current Loop Systems Reference Design – TIDA-00095 Key Features • Input Compatible with 2-, 3-, and 4-wire RTD probes • Low power consumption of 1.4mA (with RTD biasing currents) makes it ideal for loop powered systems • 4mA to 20mA current-loop signal output with 0.25µA resolution • Maximum measured error: 0.11°C (–200°C to 200°C), 0.17°C (-200°C to 850°C) • IEC61000-4-2: ESD: Air Discharge: ±8kV Class A, Contact Discharge ±4kV Class A • IEC61000-4-4: EFT: ±2kV Class A Reference Design Includes • Bill of Materials • User Guides • Design Files • Software • Applications Get more information: www.ti.com/tool/TIDA-00095 Isolated Loop Powered Thermocouple Transmitter Reference Design – TIDA-00189 Key Features • Sensor input compatible with k-Type Thermocouple probes (–200°C to +1375°C) • Operating temperature of the circuit –40°C to +85°C • Implements cold junction compensation (RTD based) • Front End accuracy < 0.5°C (–200°C to +270°C) and < 0.15% (270°C to +1375°C) • 4mA to 20mA current loop output signal • Design to meet IEC 61000-4-5 Reference Design Includes • Bill of Materials • User Guides • Design Files • Software Get more information: www.ti.com/tool/TIDA-00189 Texas Instruments TI Designs (continued) Hall-Effect Proximity Sensor with PNP or NPN Output NFC Configuration & Logging Interface (Dual Port FRAM: NFC <-> FRAM <-> Serial) Reference Design – TIDA-00244 Reference Design – TIDA-00230 Key Features • Hall-effect latch sensor with SIO transmitter interface • Offers superior stability of the proximity detection • Size and form factor of sensors are perfectly suited to SIO transmitter interfaces • MSP430 based solution for easy IO-Link upgrade (see TIDA-00188) Key Features • ISO14443B interface (RF430CL330): Android NFC standard • 64kB FRAM (MSP430FR5969) • Up to 8Mb/s throughput to/from FRAM over serial • 800kb/s throughput to/from FRAM over NFC • Powered over NFC • Power ORing is provided between the main system and the NFC daughter card to demonstrate that the NFC card can be woken up when the main system is down Reference Design Includes • Bill of Materials • User Guides • Design Files • Software • Applications Get more information: www.ti.com/tool/TIDA-00244 Reference Design Includes • Bill of Materials • User Guides • Design Files • Software • Applications Get more information: www.ti.com/tool/TIDA-00230 Isolated Ultra-Low Power Design for 4mA to 20mA Loop Powered Transmitters Combined Voltage and Current Output Terminal for Analog Outputs (AO) in Industrial Applications Reference Design – TIDA-00167 Key Features • Single terminal, standard voltage or current output for a universal analog output module • 16-bit Resolution • <0.1% TUE (%FSR) 0mA to 24mA current output precision • <0.1% TUE (%FSR) ±10V voltage output precision • 4kV Digital galvanic isolation using ISO7641FC Key Features • Input Power: 8V to 33V/<3.3mA • Outputs: isolated and non-isolated 3.3V rails Selectable between low Iq LDOs and high PSRR LDOs as post regulators • Highly efficient isolated DC/DC converter >70% @ 5mW to 8mW output power Functional isolation: 1500VAC • Contains input surge protection (EN 61000-4-5: ±1kV), reverse protection, current limiters for hot-plug and surge, load switch and protects a transmitters loop current sense circuit • On-board ripple filter to address conducted EMI requirements (EN 55011) and decoupling from loop current • Fully functional board which can easily be tested, modified and optimized Reference Design – TIPD119 Reference Design Includes • Bill of Materials • User Guides • Design Files • Software • Applications Get more information: www.ti.com/tool/TIPD119 Reference Design Includes • Bill of Materials • User Guides • Design Files Get more information: www.ti.com/tool/TIDA-00167 Texas Instruments Field Transmitters & Process Instrumentation 2015 | 21 TI Designs (continued) Variable Threshold Hall Proximity Sensor with PNP/NPN Bridge Sensor Signal Conditioner with Current Loop Output, EMC Protection Reference Design – TIDA-00286 Reference Design – TIPD126 Key Features • Magnetic field proximity sensor • Switched output (PNP/NPN) • Configurable threshold (via on-board button) • MSP430 based solution for easy IO-Link upgrade (see TIDA-00188) Key Features • EMC tested according to IEC 61000-4 and FCC standards • Digitally calibrated 4mA to 20mA output • 0.1% accuracy Reference Design Includes • User Guides • Design Files • Software Get more information: www.ti.com/tool/TIDA-00286 Reference Design Includes • Theory • Component Selection and Calculation • TINA-TI Simulation • Schematics and PCB Layout • Measurement Results • EMC Test Results • Bill of Materials • User Guides • Design Files Get more information: www.ti.com/tool/TIPD126 Simple Thermocouple Measurement Solution Reference Design, <1°C Accurate Gas Sensor Platform with Bluetooth Low Energy Reference Design – TIPD109 Reference Design – TIDA-00056 Key Features • Measures K-type theromcouple temperature • Accuracy <1°C • Precision/repeatability 0.2°C • Includes cold junction compensation • Includes software algorithm • Uses ADS1118 16-bit ADC with PGA Key Features • Monitors wide range of gases • Carbon monoxide, oxygen, ammonia, fluorine, chlorine dioxide…and more • Supports 2- and 3-lead electrochemical gas sensors • Complies with FCC and IC regulatory standards • Coin cell battery operation • Easily monitor gas concentrations via TI’s gas sensor iOS mobile app Reference Design Includes • Theory • Component Selection • TINA-TI Simulation • Schematics and PCB Layout • Verification and Measured Performance • Modification Options • Bill of Materials • User Guides • Design Files • Software Reference Design Includes • Bill of Materials • User Guides • Design Files • Software • Applications Get more information: www.ti.com/tool/TIDA-00056 Get more information: www.ti.com/tool/TIPD109 22 | Field Transmitters & Process Instrumentation 2015 Texas Instruments WEBENCH® Design Center Get results faster with easy-to-use design tool that deliver custom results. 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