MAX1452_09 Datasheet, PDF(13/25 Page) Maxim Integrated Products – Low-Cost Precision Sensor Signal Conditioner

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MAX1452_09 Datasheet, PDF (13/25 Pages) Maxim Integrated Products – Low-Cost Precision Sensor Signal Conditioner

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Low-Cost Precision Sensor

Signal Conditioner

DRIVEN BY TESTER

THREE-STATE

NEED WEAK

PULLUP

DRIVEN BY MAX1452

THREE-STATE

NEED WEAK

PULLUP

DIO 1 1 1 1 1 0 1 0 0 1 1 0 1 0 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 1 0 0 0 1 1 1 1 1 1 1 1 1 1 1

Figure 5. DIO Output Data Format

3) Write the load internal calibration register (LdICR)

command to CRIL[3:0].

When a LdICR command is issued to the CRIL register,

the calibration register loaded depends on the address

in the internal calibration register address (ICRA). Table

12 specifies which calibration register is decoded.

Erasing and Writing the EEPROM

The internal EEPROM needs to be erased (bytes set to

FFhex) prior to programming the desired contents.

Remember to save the 3 MSBs of byte 161hex (high-

byte of the configuration register) and restore it when

programming its contents to prevent modification of the

trimmed oscillator frequency.

The internal EEPROM can be entirely erased with the

ERASE command, or partially erased with the

PageErase command (see Table 11, CRIL command).

It is necessary to wait 6ms after issuing the ERASE or

PageErase command.

After the EEPROM bytes have been erased (value of

every byte = FFhex), the user can program its contents,

following the procedure below:

1) Write the 8 data bits to DHR[7:0] using two byte

accesses into the interface register set.

2) Write the address of the target internal EEPROM

location to IEEA[9:0] using three byte accesses into

the interface register set.

3) Write the EEPROM write command (EEPW) to

CRIL[3:0].

Serial Digital Output

When a RdIRS command is written to CRIL[3:0], DIO is

configured as a digital output and the contents of the

framed by a start bit and a stop bit.

Once the tester finishes sending the RdIRS command,

it must three-state its connection to DIO to allow the

MAX1452 to drive the DIO line. The MAX1452 three-

states DIO high for 1 byte time and then drive with the

start bit in the next bit period followed by the data byte

and stop bit. The sequence is shown in Figure 5.

The data returned on a RdIRS command depends on

the address in IRSP. Table 13 defines what is returned

for the various addresses.

Multiplexed Analog Output

When a RdAlg command is written to CRIL[3:0] the

analog signal designated by ALOC[3:0] is asserted on

the OUT pin. The duration of the analog signal is deter-

mined by ATIM[3:0] after which the pin reverts to three-

state. While the analog signal is asserted in the OUT

pin, DIO is simultaneously three-stated, enabling a par-

allel wiring of DIO and OUT. When DIO and OUT are

connected in parallel, the host computer or calibration

system must three-state its connection to DIO after

asserting the stop bit. Do not load the OUT line when

reading internal signals, such as BDR, FSOTC...etc.

The analog output sequence with DIO and OUT is

shown in Figure 6.

The duration of the analog signal is controlled by

ATIM[3:0] as given in Table 14.

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