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Datasheet SPI IR thermometer module
MLX90601C
Features
* * * * * * Remote temperature measurement Fully linearised signals 125kb/s SPI Factory calibrated EEprom ECC Open drain relay driver output
Applications
* * * * Automotive climate control Toasters, microwave ovens and other appliances that require temperature control Residential, commercial climate control and occupancy detection Industrial temperature transducer and monitoring applications
Ordering Information
M L X 9 0 6 0 1 E Z A C X X
Product Code
Temperature Suffix Package Suffix
Type
Version
Supply, i/o-Configuration and temperature ranges B C D Analog voltage output SPI serial interface PWM output
Part No MLX90601 MLX90601
Temperature E E
Suffix Package ZA ZA
Type C C
Version AA BA
Description digital SPI -20/120C 5V supply digital SPI 5/60C 5V supply
Description Functional Diagram
IR+ IRRsens VSS VDD IRINP C2 IRINN TEMPOUT TINP TINN IROUT R2 R1 C4 IROUT C5 TEMPOUT C3 5V
MLX90247
MLX90313
CS SCLK SDI SDO REL1 CREF VSS VREFP
CS SCLK DIN DOUT REL VREF VSS/GND
R3
The MLX90601C is a versatile IR thermometer module, which performs signal conditioning, linearisation and ambient temperature compensation. The module is built around the MLX90313 IR amplifier-interface, which uses high performance, chopper stabilized amplifiers, providing excellent noise performance. The sensing element is the MLX90247 discrete IR thermopile. The module is delivered factory calibrated. The SPI offers both the sensor ambient temperature and the object temperature in 12 bit digital form. Additionally the module offers several analog pins for access to the programmable comparator circuitry and the reference voltage.
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Datasheet SPI IR thermometer module
MLX90601C
ELECTRICAL CHARACTERISTICS Parameter Symbol Test Condition
VDD @ Ta=25C f 100kHz rms-value 8 IROUT IROUT IROUT IROUT IROUT 500 f 100kHz rms-value 15 TEMPOUT TEMPOUT TEMPOUT TEMPOUT 0 1 20 500 32 10 Vdd-0.2 75 400 0 1 20 Vdd-0.2
Min
4.5 1.1 75
Typ
5 5 1.3
Max
6 5.6 1.5
Unit
V mA V dB
Regulator and consumption Supply voltage range Vin Supply current Idd POR threshold voltage Vpor IR-chain amplifier and output driver Power supply rejection PSSR ratio Input referred white noise Vnir Chopper frequency fc Output voltage range Output source current Iod Output sink current Ios DC Output impedance, rod drive DC Output impedance, ros sink Amplifier bandwidth BW Temp-chain amplifier and output driver Power supply rejection PSSR ratio Input referred white noise Vntemp Chopper frequency fc Output voltage range ORtemp Output source current Iod Output sink current Ios AC Output impedance ro Amplifier bandwidth BW Rel1 open drain relay driver High voltage protections output impedance Ro ADC Monotonicity Differential non-linearity DNL Integral non-linearity INL Gain error Total input-referred noise DAC Resolution Monotonicity Differential non-linearity DNL Integral non-linearity INL PWM PWM Clock period Tclk PWM Total period T Leading buffer time t1 Trailing buffer time t5 Duty cycle high t2 Duty cycle low t3 Error signal t4 Rise time* 390109060103 Rev. 004
25
10 100
nV/Hz kHz V mA uA Hz dB nV/Hz kHz V mA uA Hz V
100
full scale Vref=3V
guaranteed by design 0.4 LSB 1/2 LSB 1 LSB 0.2 LSB 8 bit guaranteed by design 1/2 LSB 1/2 LSB 45 92.16 50 102.4 12.5 12.5 55 112.64 s ms % % % % % s Dec/01
% of T % of T % of T % of T % of T 10% to 90% of Vh Page 2 of 12
0 0 25 13.3
50 50 100
Datasheet SPI IR thermometer module
Parameter
Fall time* Output voltage high Output voltage low *Without external loading
MLX90601C
Max
100 1
Symbol
Vh Vl
Test Condition
90% to 10% of Vh Ihigh=2mA Ilow=2mA
Min
13.3 4
Typ
Unit
s V V
General Description
MLX90601 is a versatile IR thermometer built around the MLX90247 Discrete IR thermopile sensor with on-chip PTC and the MLX90313 Programmable IR sensor interface. MLX90313 amplifies the signals coming from MLX90247 and converts them to digital by means of two high performance, low noise, chopper stabilized amplifiers and the 12-bit analog to digital converter. The digital unit on the interface then performs the ambient compensation of the IR signal. This results in two temperature signals, one representing the temperature of the object the IR sensor is pointed at (Tobject) and one representing the temperature of the sensor (Tambient). Both signals are then linearised and stored in dedicated registers, which are accessible through SPI (Tobject at register address 09h, Tambient at register address 0Ah). The REL1 output is directly connected to the open drain relay driver output of the comparator circuitry inside MLX90313. The TEMPOUT pin is connected to a pseudo push-pull output stage of the second comparator. Both comparators can act on the linearised object or ambient temperature and have programmable hysteresis values and polarity settings.
Absolute Maximum Ratings
Supply Voltage, VDD (overvoltage) Supply Voltage, VDD (operating) Reverse Voltage Protection Supply Current, IDD @25C Output Current, IOUT Operating Temperature Range, TA Storage Temperature Range, TS ESD Susceptibility 80V 4.5V - 6V -5V 6 mA mA -40C - 125C -55C - 150C 4kV
Pinout
Pin 1 2 3 4 5 6 7 8 9 10 Symbol REL1 VSS VDD SDIN SDOUT CSB SCLK IROUT VREF TEMPOUT Description Open drain, relay driver comparator output Ground Supply pin SPI data input SPI data output SPI chip select input SPI clock input Object temperature output Reference voltage Ambient temperature output
Unique Features
MLX90601 is an automotive grade IR thermometer that can be fitted to any contactless temperature measurement application by means of the programmable Interfaces. The module is designed to cope with all standard qualification tests oriented towards the harsh automotive environment. If so desired, all temperature ranges and comparator settings can be adapted to the application. MLX90601 is delivered calibrated, relieving the customer of IR calibration.
Detailed Description Analog Features
Supply The module should be supplied directly with a nominal 5V regulated supply on pin VDD. (4.5V - 6V) The power-on reset circuitry is completely internal to MLX90313. The module is fully operational 16 ms from the time the supply
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Datasheet SPI IR thermometer module
crosses 1.3V. The POR circuit will issue another reset if the supply voltage goes below 1.3V.
MLX90601C
A/D The MLX90313 on the module contains a 12-bit internal analog to digital converter. Real 12-bit conversion is achieved by a fully differential analog part of the converter. Automatic calibration is implemented in the background, which allows precise conversion in a very wide temperature range.
In the second step the value of the ambient temperature is combined with the measured signal coming from the IR thermopile sensor inside MLX90247 to obtain a calculated value for the object temperature, based on the calibration data. The value is stored in a dedicated register and also available for the output electronics and SPI.
Sensor Characteristics
For detailed specification we refer to the datasheet on MLX90247, available from the Melexis website. In a calibrated module the linearisation unit of MLX90313 takes all characteristics of the sensor into account, including all process variations they are subject to. The TO-39 sensor housing of the thermopile has a 2.5mm diameter aperture, resulting in a 70 full angle field of view. The silicon filter used as IR-window is treated with an antireflective coating that will pass minimum 75% of IR radiation in the wave length band from 7.5m to 13.5m. Below 5m, 99.5% of incoming radiation is reflected by the filter
Comparators Two comparator circuits are available. Comparator 1 drives the Rel1 open drain output and is triggered by the linearised object temperature signal. The threshold level is programmed in the eeprom. Comparator 2 drives the TEMPOUT pin and is triggered by the linearised object temperature signal. The threshold level is programmed in EEPROM and can be changed through the SPI. Configuration and settings for the comparators are accessible through the SPI. For details please refer to the application note on the SPI.
Linearisation Unit
The linearisation unit of MLX90313 realizes 3 functions: 1. Offset measurement and calibration (offset drift compensation) 2. Measurement and offset cancellation 3. Linearisation. Linearisation proceeds in two steps. In the first step the ambient temperature is calculated from the measured signal coming from the on-chip PTC temperature sensor of MLX90247. The value is stored in a dedicated register than is available for the output electronics.
CS SCLK SDI SDO C7 C6 C5 C4 C3 C2 C1 X C0 A7 C7 A6 C6 A5 C5 A4 C4 A3 C3 A2 C2 A1 C1 A0 C0
Serial Peripheral Interface (SPI)
Protocol The digital interface implemented in MLX90313C is SPI compatible. It can be used to access the on-chip EEPROM and all internal registers. The chip will always work as a slave device. The format of any command is always 32 bits: 8 bits for the operation code, 8 bits for the address and 16 bits of data. The communication protocol is presented below.
D15 A7
D14 A6
D13 A5
D12 A4
D11 A3
D10 A2
D9 A1
D8 A0
D7 D15
D6 D14
D5 D13
D4 D12
D3 D11
D2 D10
D1 D9
D0 D8
X X
write command
CS SCLK SDI SDO C7 C6 C5 C4 C3 C2 C1 X C0 A7 C7 A6 C6 A5 C5 A4 C4 A3 C3 A2 C2 A1 C1 A0 C0 X D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 X
read command 390109060103 Rev. 004 Page 4 of 12 Dec/01
Datasheet SPI IR thermometer module
MLX90601C
Every write command starts with a high to low transition of CS and ends by a low to high transition of CS after 32 periods of the serial data clock (SCLK). MLX90313C reads the data present on SDI on the rising edge of the clock. With a delay of 8 periods of the serial clock, the SPI will repeat the opcode, address and the first 8 bits of data on pin SDO. This allows the external master to check command and address and terminate the operation in case of an error by forcing CS high before the end of the complete command cycle, i.e. before the end of the 32 clock periods. The read command is build up similarly, except that no data has to be passed of course. On SDO the opcode will be followed directly by the
requested data, the address is not returned in this case. The data on SDO is valid on the rising edge of the clock. In case of a read command, the SPI th will output the data on SDO starting on the 25 rising edge of the clock (after CS low) as indicated in the figure above.
Timing/speed The baud-rate depends on the serial data clock (SCLK) supplied by the master controller and is limited to 125kb/s. The timing requirements are given in the figure and table below
tcls
tsclk
tsch
CS
SCLK
tsu thd
SDI
tdv
SDO
Symbol tsclk tcls tsch tsu thd tdv
SPI timing requirements Parameter Value Sclk period min 8 CS low to SCLK high min 50 SCLK low to CS high min 50 data in setup time min 200 data in hold time min 200 data out valid min 1
Unit s ns ns ns ns s
Below table summarizes the operations available in MLX90313C. mnem. WR RD WEPR ER REPR BLWR BLER C[7:0] Operation Codes Command X101X0XX Write internal register X10010XX Read internal register 0001XXXX Write EEprom 001XXXXX Erase EEprom X0001XXX Read EEprom 1001XXXX Block Write EEprom 101XXXXX Block erase EEprom
operation codes The operation code is the first series of 8bits in a command, C[7:0] in the figure on the protocol above.
Additional information on the SPI and use can be found in the application note on SPI.
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Datasheet SPI IR thermometer module
CSB:
MLX90601C
Pin Descriptions
REL1 Open drain relay driver output. The typical onresistance of this driver is <10 with a supply voltage of VDD=5V. The default configuration of comparator 1 is shown in the figure below.
REL1 Tobject
COMP
Active low, chip select pin for the SPI. Communication is started on the falling edge of CS and ended on the rising edge of CS.
SCLK: Serial data clock from the external master to be supplied to this pin. Maximum frequency is 125kHz.
Threshold in EEPROM VSS Hysteresis in EEPROM
IROUT In the default setting of the module, this pin is IR PWM coded temperature output. The driver can source or sink at least 2mA to/from an external load. It is possible to change the function of this pin by means of the SPI. By setting the appropriate values in the EEPROM configuration registers the pin can be used as analog output. For details on how to do this, please refer to the application note on the SPI. The details on the functionality of the IROUT pin in analog and PWM mode are covered in the datasheets on MLX90601B and MLX90601D respectively.
The comparator is a digital comparator, with a resolution of 12 bits. By default the input polarity is inverting. By default the trigger temperature is the object temperature but also the ambient (sensor) temperature can be used. Threshold and hysteresis values are version dependent, as indicated below. default REL1 settings Version Threshold Hysteresis 5/60C version 45C 2C -20/120C version 95C 5C It is possible to change the configuration and settings of the comparator through the SPI.
VREF Voltage reference I/O pin. This level is by default dependent on the on-chip band-gap reference and can be programmed in the range 2-4.5V in EEprom configuration registers. The default setting is 4.5V. This voltage is used as reference for ADC, DAC (analog outputs). The 90313 can be configured to use an external reference (2-5V) instead of the on-chip bandgap, if required.
VSS: Supply pin
VDD: Supply pin
SDIN: Serial data input pin for the SPI. Data is accepted on the rising edge of the serial data clock (SCLK)
TEMPOUT In the default setting of the module, this pin is used as output for comparator2. The driver can source or sink at least 2mA to/from an external load. The default configuration of comparator 2 is shown in the figure below.
DOUT: Serial data output pin for the SPI. Data is valid on the rising edge of the serial data clock (SCLK)
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Datasheet SPI IR thermometer module
analog options Tambient or Tobject
COMP
MLX90601C
Tempout
default Comparator 2 settings Version Threshold Hysteresis 5/60C version 45C 2C -20/120C version 95C 5C It is possible to change the configuration and settings of the comparator through the SPI. It is possible to change the function of the TEMPOUT pin by means of the SPI. By setting the appropriate values in the EEPROM configuration registers the pin can be used as analog output or PWM output for the ambient temperature. For details on how to do this, please refer to the application note on the SPI. The details on the functionality of the TEMPOUT pin in analog and PWM mode is covered in the datasheets on MLX90601B and MLX90601D respectively.
Threshold in EEPROM Hysteresis in EEPROM
The comparator is a digital comparator, with a resolution of 12 bits. By default the input polarity is inverting. The default threshold and hysteresis values are version dependent, as indicated below.
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Datasheet SPI IR thermometer module
Applications Information
Connection of the MLX90601 module into an application is straightforward. The 5V regulated supply should be connected between pin 3 (VDD) and pin 5 (VSS). There are numerous possibilities for the I/O of which one typical example is shown below. Here the default configuration is used. In the example a relay is switched with the REL1 output. The threshold for this comparator is programmed in the eeprom. This means the micro controller can change the threshold, and the MLX90601 can control the alarm standalone. The second comparator drives the TEMPOUT pin. The SPI connection to the host microcontroller can be a permanent connection in the application or just a means for in-circuit programming of the device. Through this connection full access to the internal registers and configuration settings is achieved. The SPI connection can also be used to directly read output data from the module in digital form and process this directly in the application. An interesting feature is in-circuit programming of the calibration constants. It is possible to change the range or emissivity, or whatever setting needs to be user selectable.
IR sensor IR+ IRThermisto r Rsens VSS MLX90247
12 COMP
MLX90601C
IRINP
To
MLX90313 REL1
COMP
1
IRINN TINP TINN
OPA
A/D D/A
SW1
Digital
OPA A/D D/A To
SW2
TEMPOUT
10
alarm
VCM25V CREF Control and Support Blocks VSS SPI
VREFP VDD
9 3 2
Vref 5V VSS
MLX90601C SPI 4 5 6 7
Micro-controller I/O-port
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Datasheet SPI IR thermometer module
on the temperature of the object (Tobject) but also on the temperature of the sensor itself. Therefore the IR signal is compensated for this effect by means of the measured sensor temperature (Tambient). This rather complex calculation is performed in the linearisation unit of MLX90313. Chopper Amplifier: Special amplifier configuration aimed at ultra low offset. DAC: Digital to Analog Converter. EEprom: Non-volatile memory that can be electrically erased and rewritten. This type of memory is used to store configuration and calibration data for the module. ECC: Error Checking and Correction. The EEprom on board of MLX90313 is equipped with a checking and correction feature based on the Hamming Code method. IR: Infrared. Every object emits infrared radiation in relation to its temperature. This effect can be used to measure this temperature without the need for physical contact. Linearisation: The signal from a thermopile is not linear with the object temperature. MLX90313 is therefore equipped with a digital calculation unit that produces an output that is linear with the object temperature. POR: Power-on reset: Reset circuit that starts the digital system in a known state whenever the supply voltage is cycled PSSR: Power Supply Rejection Ratio: Measure for an amplifier's immunity to disturbances on the supply connection. PTC: See Thermistor PWM: Pulse Width Modulation: Binary periodical signal which uses variation of the duty cycle to code information. SPI: Serial Peripheral Interface. Commonly used, 4 wire, serial link to connect different circuits over a short distance Ta, Tambient: The temperature of the IR sensor. Target: or Object: The object the IR module is aimed at. Thermistor: Temperature dependant resistor. Basically there are 2 types. The types that increase their resistance with rising temperature are PTC (positive thermal coefficient) type. The ones that decrease their resistance with rising temperature we call NTC (negative thermal coefficient) type. The MLX90313 can work with both types. The MLX90601 modules are equipped with sensors that use PTCs. To, Tobject: The temperature of the object one wished to measure with the module Dec/01
MLX90601C
ESD Precautions
Electronic semiconductor products are sensitive to Electro Static Discharge (ESD). Always observe Electro Static Discharge control procedures whenever handling semiconductor products.
FAQ
Q: What is the accuracy? A: For an object temperature range between 5C and 60C the accuracy of measurement is 1C. For the wider object temperature range version (-20C/120C) the accuracy of measurement is 2C. Q: What is FOV? A: The FOV or Field Of View is a definition of the area the sensor is `seeing'. The sensor will detect radiation coming in at an angle, relative to the sensor's central axis, from 0 to 35C. The full viewing angle is thus 70. Q: What is the useful temperature range? A: There are two temperature ranges of interest; the temperature of the object (or target), which you are trying to measure and the temperature of the sensor. The sensor temperature, called Tambient, should be between 0C and 50C. Outside this range the ambient temperature compensation will no longer work and calculation of the object's temperature will no longer be correct. The TEMPOUT output will saturate under this condition. The object temperature, called Tobject, should be between 5C and 60C. Outside this range the IROUT output will saturate. Q: Can the temperature ranges be changed? A: Yes, MLX90313 is a programmable device. Melexis selected a limited set of standard ranges that will fit the majority of applications in order to limit delivery times. However, if necessary, the ranges can be adapted for any particular application.
Glossary of Terms
ADC: Analog to Digital Converter Ambient Compensation: The IR signal captured by a thermopile sensor is not only dependent 390109060103 Rev. 004
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Datasheet SPI IR thermometer module
accurate and reliable. However, Melexis assumes no responsibility for its use; nor for any infringements of patents or other rights of third parties, which may result from its use. Melexis
MLX90601C
Disclaimer
Melexis reserves the right to periodically make modifications to product specifications. The information included herein is believed to be
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Datasheet SPI IR thermometer module
Physical Characteristics
MLX90601C
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Datasheet SPI IR thermometer module
MLX90601C
Future mechanical design on flex board
The mechanical outline of the MLX90601 module will change due to a transition from a rigid FR-4 substrate to a polyimide flexible film. Below drawing shows the future outline and pinning of the module
For the latest version of this document, go to our website at:
www.melexis.com
Or for additional information contact Melexis Direct:
Europe and Japan:
Phone: +32 13 61 16 31 E-mail: sales_europe@melexis.com
All other locations:
Phone: +1 603 223 2362 E-mail: sales_usa@melexis.com
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