SE97 Datasheet, PDF(7/54 Page) NXP Semiconductors – DDR memory module temp sensor with integrated SPD, 3.3 V

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SE97 Datasheet, PDF (7/54 Pages) NXP Semiconductors – DDR memory module temp sensor with integrated SPD, 3.3 V

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NXP Semiconductors

SE97

DDR memory module temp sensor with integrated SPD, 3.3 V

7.3 EVENT output condition

The EVENT output indicates conditions such as the temperature crossing a predeï¬ned

boundary. The EVENT modes are very conï¬gurable and selected using the conï¬guration

using either TCRIT/UPPER/LOWER or TCRIT only temperature bands (CONFIG[2]) as

modiï¬ed by hysteresis (CONFIG[10:9]). The UPPER/LOWER (CONFIG[6]) and TCRIT

(CONFIG[7]) bands can be locked. Figure 7 shows an example of the measured

temperature versus time, with the corresponding behavior of the EVENT output in each of

these modes.

Upon device power-up, the default condition for the EVENT output is high-impedance to

prevent spurious or unwanted alarms, but can be later enabled (CONFIG[3]). EVENT

output polarity can be set to active HIGH or active LOW (CONFIG[1]). EVENT status can

be read (CONFIG[4]) and cleared (CONFIG[5]).

â¢ Advisory note:

â NXP device: After power-up, bit 3 (1) and bit 2 or bit 0 (leave as 0 or 1) can be set

at the same time (e.g., in same byte) but once bit 3 is set (1) then changing bit 2 or

bit 0 has no effect on the device operation.

â Competitor device: Does not require that bit 3 be cleared (e.g., set back to (0))

before changing bit 2 or bit 0.

â Work-around: In order to change bit 2 or bit 0 once bit 3 (1) is set, bit 3 (0) must be

cleared in one byte and then change bit 2 or bit 0 and reset bit 3 (1) in the next

byte.

â SE97B will allow bit 2 or bit 0 to be changed even if bit 3 is set.

If the device enters Shutdown mode (CONFIG[8]) with asserted EVENT output, the output

remains asserted during shutdown.

7.3.1 EVENT pin output voltage levels and resistor sizing

The EVENT open-drain output is typically pulled up to a voltage level from 0.9 V to 3.6 V

with an external pull-up resistor, but there is no real lower limit on the pull-up voltage for

the EVENT pin since it is simply an open-drain output. It could be pulled up to 0.1 V and

would not affect the output. From the system perspective, there will be a practical limit.

That limit will be the voltage necessary for the device monitoring the interrupt pin to detect

a HIGH on its input. A possible practical limit for a CMOS input would be 0.4 V. Another

thing to consider is the value of the pull-up resistor. When a low supply voltage is applied

to the drain (through the pull-up resistor) it is important to use a higher value pull-up

resistor, to allow a larger maximum signal swing on the EVENT pin.

SE97_5

Product data sheet

Rev. 05 â 6 August 2009

7 of 54

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