TCN75A_1 Datasheet, PDF(24/40 Page) Microchip Technology

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TCN75A_1 Datasheet, PDF (24/40 Pages) Microchip Technology – 2-Wire Serial Temperature Sensor

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TCN75A

5.3.4.1 Shutdown Mode

The Shutdown mode disables all power-consuming

activities (including temperature sampling operations)

while leaving the serial interface active. The device

consumes 2 ÂµA (maximum) in this mode. It remains in

this mode until the Configuration register is updated to

enable continuous conversion or until power is

recycled.

In Shutdown mode, the CONFIG, TA, TSET and THYST

registers can be read or written to; however, the serial

bus activity will increase the shutdown current.

5.3.4.2 One-Shot Mode

The TCN75A can also be used in a One-shot mode that

can be selected using bit 7 of the CONFIG register. The

One-shot mode performs a single temperature

measurement and returns to Shutdown mode. This

mode is especially useful for low-power applications

where temperature is measured upon command from a

controller. For example, a 9-bit TA in One-shot mode

consumes 200 ÂµA (typical) for 30 ms and 0.1 ÂµA

(typical) during shutdown.

To access this feature, the device needs to initially be

in Shutdown mode. This is done by sending a byte to

the CONFIG register with bit 0 set <1> and bit 7 cleared

<0>. Once the device is in Shutdown mode, the

CONFIG register needs to be written to again, with bit

0 and bit 7 set <1>. This begins the single conversion

cycle of tCONV, 30ms for 9-bit data. Once the

conversion is completed, TA is updated and bit 7 of the

CONFIG register becomes cleared <0> by the

TCN75A.

TABLE 5-2: SHUTDOWN AND ONE-SHOT

MODE DESCRIPTION

Operational Mode

One-Shot Shutdown

(Bit 7)

(Bit 0)

Continuous Conversion

Shutdown

Continuous Conversion

(One-shot is ignored)

One-shot (Note 1)

Note 1: The shutdown command <01> needs to

be programmed before sending a

one-shot command <11>.

5.3.4.3 ALERT Output Configuration

The ALERT output can be configured as either a

comparator output or as Interrupt Output mode using

bit 1 of the CONFIG register. The polarity can also be

specified as an active-high or active-low using bit 2 of

the CONFIG register. The following sections describe

each output mode, while Figure 5-7 gives a graphical

description.

5.3.4.4 Comparator Mode

In Comparator mode, the ALERT output is asserted

when TA is greater than TSET. The pin remains active

until TA is lower than THYST. The Comparator mode is

useful for thermostat-type applications, such as turning

on a cooling fan or triggering a system shutdown when

the temperature exceeds a safe operating range.

In Comparator mode, if the device enters the Shutdown

mode with asserted ALERT output, the output remains

active during shutdown. The device must be operating

in continuous conversion, with TA below THYST, for the

ALERT output to be deasserted.

5.3.4.5 Interrupt Mode

In Interrupt mode, the ALERT output is asserted when

TA is greater than TSET. However, the output is deas-

serted when the user performs a read from any

microcontroller-based systems. The microcontroller

receiving the interrupt will have to acknowledge the

interrupt by reading any register from the TCN75A.

This will clear the interrupt and the ALERT pin will

become deasserted. When TA drifts below THYST, the

TCN75A outputs another interrupt and the controller

needs to read a register to deassert the ALERT output.

Shutting down the device will also reset, or deassert,

the ALERT output.

TSET

THYST

ALERT

Comparator mode

Active-low

ALERT

Interrupt mode

Active-low

Read

* See Section 5.3.4.5 âInterrupt Modeâ

DS21935D-page 24

ï£ 2010 Microchip Technology Inc.

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