MCP98243-BE/MC Microchip Technology, MCP98243-BE/MC Datasheet - Page 27

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MCP98243-BE/MC

Manufacturer Part Number
MCP98243-BE/MC
Description
IC TEMP SENSOR 3V 2WIRE 8-DFN
Manufacturer
Microchip Technology
Datasheets
1.MCP9843T-BEMC.pdf (62 pages)
2.MCP98243-BEMC.pdf (60 pages)

Specifications of MCP98243-BE/MC

Package / Case
8-DFN
Output Type
I²C™/SMBus™
Function
Temp Monitoring System (Sensor)
Topology
ADC (Sigma Delta), Register Bank
Sensor Type
Internal
Sensing Temperature
-40°C ~ 125°C
Output Alarm
No
Output Fan
Yes
Voltage - Supply
2.7 V ~ 5.5 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Full Temp Accuracy
+/- 3 C
Digital Output - Bus Interface
Serial (2-Wire, I2C)
Maximum Operating Temperature
+ 125 C
Minimum Operating Temperature
- 40 C
Ic Output Type
Digital
Sensing Accuracy Range
± 0.5°C
Temperature Sensing Range
-40°C To +125°C
Supply Current
200µA
Supply Voltage Range
2.7V To 5.5V
Sensor Case Style
DFN
No. Of Pins
8
Rohs Compliant
Yes
Resolution (bits)
8bit
Supply Voltage Min
3V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant

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5.1.4.1
To convert the T
upper three boundary bits (bits 15, 14 and 13) must be
masked out. Then determine the sign bit (bit 12) to
check positive or negative temperature, shift the bits
accordingly and combine the upper and lower bytes of
the 16-bit register. The upper byte contains data for
temperatures greater than 32°C while the lower byte
contains data for temperature less than 32°C, including
fractional data. When combinding the upper and lower
bytes, the upper byte must be Right-shifted by 4bits (or
multiply by 2
by 4 bits (or multiply by 2
shifted values provides the temperature data in decimal
format, see
The temperature bits are in two’s compliment format,
therefore, postive temperature data and negative tem-
perature data are computed differently.
shows the temperature computation. The example
instruction code outlined in
munication flow, also see
FIGURE 5-6:
© 2009 Microchip Technology Inc.
Equation
4
i2c_start();
i2c_write(ControlByte & 0xFE);
i2c_write(0x05);
i2c_start();
i2c_write(ControlByte | 0x01);
UpperByte = i2c_read(ACK);
LowerByte = i2c_read(NAK);
i2c_stop();
//Convert the temperature data
//First Check flag bits
if ((UpperByte & 0x80) == 0x80){
}
if ((UpperByte & 0x40) == 0x40){
}
if ((UpperByte & 0x20) == 0x20){
}
UpperByte = UpperByte & 0x1F;
if ((UpperByte & 0x10) == 0x10){
}else
T
) and the lower byte must be Left-shifted
A
This example routine assumes the variables and i2c communication subroutines are predefined:
bits to Temperature Conversion
UpperByte = UpperByte & 0x0F;
Temperature = 256 - (UpperByte x 16 + LowerByte / 16);
Temperature = (UpperByte x 16 + LowerByte / 16);
A
bits to decimal temperature, the
5-1.
Example Instruction Code.
Figure 5-7
-4
). Adding the results of the
Figure 5-6
for timing diagram.
shows the com-
Equation 5-1
// send START command
//WRITE Command
//also, make sure bit 0 is cleared ‘0’
// Write T
//Repeat START
// READ Command
//also, make sure bit 0 is Set ‘1’
// READ 8 bits
//and Send ACK bit
// READ 8 bits
//and Send NAK bit
// send STOP command
//T
//T
//T
//T
//Clear flag bits
//T
//Temperature = Ambient Temperature (°C)
//Clear SIGN
A
A
A
A
A
≥ T
> T
< T
< 0°C
≥ 0°C
EQUATION 5-1:
CRIT
UPPER
LOWER
Where:
A
Temperature ≥ 0°C
Temperature < 0°C
Register Address
UpperByte = T
LowerByte = T
T
A
T
=
A
256
=
T
(
A
UpperByte 2
(
= Ambient Temperature (°C)
UpperByte 2
A
A
TEMPERATURE
CONVERSION
bit 15 to bit 8
bit 7 to bit 0
BYTES TO
×
MCP98243
×
4
+
4
LowerByte 2
+
LowerByte 2
DS22153A-page 27
×
×
4 –
)
4 –
)

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