ADT7317ARQ-REEL Analog Devices Inc, ADT7317ARQ-REEL Datasheet - Page 23

ADT7317ARQ-REEL

Manufacturer Part Number

ADT7317ARQ-REEL

Description

IC SENSOR TEMP 10BIT DAC 16QSOP

Manufacturer

Analog Devices Inc

Datasheet

1.ADT7316ARQ.pdf (44 pages)

Specifications of ADT7317ARQ-REEL

Rohs Status

RoHS non-compliant

Function

Temp Monitoring System (Sensor)

Topology

ADC, Comparator, Multiplexer, Register Bank

Sensor Type

External & Internal

Sensing Temperature

-40°C ~ 120°C, External Sensor

Output Type

I²C™, MICROWIRE™, QSPI™, SMBus™, SPI™

Output Alarm

Output Fan

Voltage - Supply

2.7 V ~ 5.5 V

Operating Temperature

-40°C ~ 120°C

Mounting Type

Surface Mount

Package / Case

16-QSOP

Current page: 23 of 44
Download datasheet (4Mb)

FUNCTIONAL DESCRIPTION—MEASUREMENT

TEMPERATURE SENSOR

The ADT7316/ADT7317/ADT7318 contain an ADC with spe-

cial input signal conditioning to enable operation with external

and on-chip diode temperature sensors. When the ADT7316/

ADT7317/ADT7318 are operating in single-channel mode, the

ADC continually processes the measurement taken on one

channel only. This channel is preselected by Bit C0 and Bit C1

in the Control Configuration 2 register (Address 0x19). When

in round robin mode, the analog input multiplexer sequentially

selects the V

to measure its internal temperature, and the external tempera-

ture sensor. These signals are digitized by the ADC and the

results stored in the various value registers.

The measured results are compared with the internal and

external, T

stored in on-chip registers. If the temperature limits are not

masked out, any out-of-limit comparisons generate flags that

are stored in the Interrupt Status 1 register (Address 0x00). One

or more out-of-limit results cause the INT/ INT output to pull

either high or low depending on the output polarity setting.

Theoretically, the temperature measuring circuit can measure

temperatures from −128°C to +127°C with a resolution of 0.25°C.

Temperatures outside T

operating temperature range of the device. Temperature meas-

urement from −128°C to +127°C is possible using an external

sensor.

Temperature measurement is initiated by three methods. The first

method is applicable when the part is in single-channel meas-

urement mode. The temperature is measured 16 times and

internally averaged to reduce noise. In single-channel mode,

the part continuously monitors the selected channel, that is, as

soon as one measurement is taken, then another one is started

on the same channel. The total time to measure a temperature

channel with the ADC operating at slow speed is typically

11.4 ms (712 μs × 16) for the internal temperature sensor, and

24.22 ms (1.51 ms × 16) for the external temperature sensor.

The new temperature value is stored in two 8-bit registers and

ready for reading by the I

disable the averaging by setting Bit 5 = 1 in the Control Con-

figuration 2 register (Address 0x19). The ADT7316/ADT7317/

ADT7318 default on power-up, with the averaging enabled.

The second temperature measurement method is applicable

when the part is in round robin measurement mode. The part

measures both the internal and external temperature sensors

as it cycles through all possible measurement channels. The

two temperature channels are measured each time the part

runs a round robin sequence. In round-robin mode, the part

continuously measures all channels.

HIGH

and T

input channel, the on-chip temperature sensor

LOW

, limits. These temperature limits are

, however, are outside the guaranteed

C or SPI interface. The user can

Rev. B | Page 23 of 44

The third temperature measurement method is initiated after

every read or write to the part when the part is in either single-

channel measurement mode or round robin measurement mode.

Once serial communication has started, any conversion in pro-

gress is stopped and the ADC reset. Conversion starts again

immediately after the serial communication has finished. The

temperature measurement proceeds normally as described earlier.

The ADT7316/ADT7317/ADT7318 can monitor their own power

supplies. The parts measure the voltage on their V

resolution of 10 bits. The resulting value is stored in two 8-bit

registers: the 2 LSBs are stored in the Internal Temperature

Value/V

stored in the V

This allows the user to perform a 1-byte read if 10-bit resolution

is not important. The measured result is compared with V

and V

of-limit comparison generates a flag in the Interrupt Status 2

cause the INT/ INT output to pull either high or low depending

on the output polarity setting.

Measuring the voltage on the V

a channel. Therefore, along with the internal and external tem-

perature sensors, the V

monitoring channel. The user can select the V

single-channel measurement by setting Bit C4 = 1 and setting

Bit C0 to Bit C2 to all 0s in the Control Configuration 2 register

(Address 0x19).

When measuring the V

is sourced from the internal reference. Table 8 shows the data

format. As the maximum V

internal scaling is performed on the V

2.28 V internal reference value. An example of how the transfer

function works follows.

MONITORING

ADC Reference = 2.28 V

1 LSB = ADC Reference/2

Scale Factor = Full-Scale V

Conversion Result = V

= 5/(3.07 × 2.226 mV)

= 0x2DB

LOW

= 5 V

limits. If the V

Value register (Address 0x03) and the 8 MSBs are

Value Register MSBs register (Address 0x06).

ADT7316/ADT7317/ADT7318

voltage makes up the third and final

value, the reference for the ADC

interrupt is not masked out, any out-

/(Scale Factor × LSB Size)

voltage measurable is 7 V,

/ADC Reference = 7/2.28 = 3.07

= 2.28/1024 = 2.226 mV

pin is regarded as monitoring

voltage to match the

channel for

pin to a

HIGH

ADT7317ARQ-REEL Analog Devices Inc, ADT7317ARQ-REEL Datasheet - Page 23

ADT7317ARQ-REEL

Specifications of ADT7317ARQ-REEL

Related parts for ADT7317ARQ-REEL