MLX90616 Datasheet, PDF(13/36 Page) Melexis Microelectronic Systems – Infra Red Thermometer in TO-39 for high temperature thermometer guns

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MLX90616 Datasheet, PDF (13/36 Pages) Melexis Microelectronic Systems – Infra Red Thermometer in TO-39 for high temperature thermometer guns

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MLX90616ESF-HCA

Infra Red Thermometer in TO-39

for high temperature thermometer guns

8.3.5 RAM

It is not possible to write into the RAM memory. It can only be read and only a limited number of RAM

registers are of interest to the customer.

RAM (32x17)

Name

Address

Melexis reserved

0x000

â¦

Melexis reserved

0x003

Raw data IR main channel

0x004

Raw data IR compensation

0x005

TOBJ

Melexis reserved

0x006

0x007

0x008

â¦

Melexis reserved

0x01F

Read access

Yes

â¦

Yes

â¦

Yes

Table 8: Ram addresses

8.4 SMBus compatible 2-wire protocol

The chip supports a 2 wire serial protocol, built with pins PWM/SDA and SCL.

ï· SCL â digital input, used as the clock for SMBus compatible communication. This pin has the

auxiliary function for building an external voltage regulator. When the external voltage regulator is

used, the 2-wire protocol is available only if the power supply regulator is overdriven.

ï· PWM/SDA â Digital input/output, used for both the PWM output of the measured object

temperature(s) or the digital input/output for the SMBus. The pin can be programmed in EEPROM to

operate as Push/Pull or open drain NMOS (open drain NMOS is factory default). In SMBus mode

SDA is forced to open drain NMOS I/O, push-pull selection bit defines PWM/Thermal relay operation.

8.4.1 Functional description

The SMBus interface is a 2-wire protocol, allowing communication between the Master Device (MD) and one

or more Slave Devices (SD). In the system only one master can be presented at any given time [1]. The

MLX90616 can only be used as a slave device.

Generally, the MD initiates the start of data transfer by selecting a SD through the Slave Address (SA).

The MD has read access to the RAM and EEPROM and write access to 9 EEPROM cells (at addresses

0x20h, 0x21h, 0x22h, 0x23h, 0x24h, 0x25h*, 0x2Eh, 0x2Fh, 0x39h). If the access to the MLX90616 is a read

operation it will respond with 16 data bits and 8 bit PEC only if its own slave address, programmed in internal

EEPROM, is equal to the SA, sent by the master. The SA feature allows connecting up to 127 devices with

only 2 wires, unless the system has some of the specific features described in paragraph 5.2 of reference [1].

In order to provide access to any device or to assign an address to a SD before it is connected to the bus

system, the communication must start with zero SA followed by low RWB bit. When this command is sent

from the MD, the MLX90616 will always respond and will ignore the internal chip code information.

Special care must be taken not to put two MLX90616 devices with the same SD addresses on the

same bus as MLX90616 does not support ARP [1].

The MD can force the MLX90616 into low consumption mode âsleep modeâ (3V version only).

Read flags like âEEBUSYâ (1 â EEPROM is busy with executing the previous write/erase), âEE_DEADâ (1 â

there is fatal EEPROM error and this chip is not functional**).

Note*: This address is readable and writable. Bit 3 should not be altered as this will cancel the factory

calibration.

Note**: EEPROM error signaling is implemented in automotive grade parts only.

3901090616

Rev 002

Page 13 of 36

Data Sheet

August 20, 2012

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