ATA5771-PXQW Atmel, ATA5771-PXQW Datasheet - Page 152
ATA5771-PXQW
Manufacturer Part Number
ATA5771-PXQW
Description
XMITTR UHF ASK/FSK 868MHZ 24VQFN
Manufacturer
Atmel
Datasheet
1.ATA5773-DK1.pdf
(219 pages)
Specifications of ATA5771-PXQW
Frequency
868MHz ~ 928MHz
Modulation Or Protocol
UHF
Power - Output
8dBm
Voltage - Supply
2 V ~ 4 V
Current - Transmitting
9.8mA
Data Interface
PCB, Surface Mount
Memory Size
4kB Flash, 256B EEPROM, 256B SRAM
Antenna Connector
PCB, Surface Mount
Operating Temperature
-40°C ~ 85°C
Package / Case
24-VQFN Exposed Pad, 24-HVQFN, 24-SQFN, 24-DHVQFN
Processor Series
ATA5x
Core
AVR8
Data Bus Width
8 bit
Program Memory Type
Flash
Program Memory Size
4 KB
Data Ram Size
256 B
Interface Type
SPI, USI
Maximum Clock Frequency
4 MHz
Number Of Programmable I/os
12
Number Of Timers
2
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Minimum Operating Temperature
- 40 C
On-chip Adc
10 bit, 12 Channel
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Applications
-
Sensitivity
-
Data Rate - Maximum
-
Current - Receiving
-
Lead Free Status / Rohs Status
Details
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
ATA5771-PXQW
Manufacturer:
ATMEL
Quantity:
218
4.20.10
4.20.10.1
152
Atmel ATA5771/73/74
Register Description
ADMUX – ADC Multiplexer Selection Register
The values described in
cess variation the temperature sensor output voltage varies from one chip to another. To be
capable of achieving more accurate results the temperature measurement can be calibrated in
the application software. The software calibration requires that a calibration value is measured
and stored in a register or EEPROM for each chip, as a part of the production test. The sof-
ware calibration can be done utilizing the formula:
where ADCn are the ADC data registers, k is a fixed coefficient and T
sensor offset value determined and stored into EEPROM as a part of the production test.To
obtain best accuracy the coefficient k should be measured using two temperature calibrations.
Using offset calibration, set k = 1.0, where k = (1024*1.07mV/°C)/1.1V~1.0 [1/°C].
• Bit 7:6 – REFS1:REFS0: Reference Selection Bits
These bits select the voltage reference for the ADC, as shown in
these bits are changed during a conversion, the change will not go in effect until this
conversion is complete (ADIF in ADCSR is set).
Special care should be taken when changing differential channels. Once a differential channel
has been selected, the stage may take as much as 25 ADC clock cycles to stabilize to the new
value. Thus conversions should not be started within the first 13 clock cycles after selecting a
new differential channel. Alternatively, conversion results obtained within this period should be
discarded.
The same settling time should be observed for the first differential conversion after changing
ADC reference (by changing the REFS1:0 bits in ADMUX).
If channels where differential gain is used ie. the gainstage, using V
AREF higher than (V
allowed to connect internal voltage reference to AREF pin, if an external voltage is being
applied to it already. Internal voltage reference is connected AREF pin when REFS1:0 is set to
value ‘11’.
Table 4-50.
Bit
0x07 (0x27)
Read/Write
Initial Value
REFS1
0
0
1
1
Voltage Reference Selections for ADC
REFS0
REFS1
R/W
7
0
0
1
0
1
CC
REFS0
- 1V) is not recommended, as this will affect ADC accuracy. It is not
Table 4-49 on page 151
R/W
Voltage Reference Selection
V
External Voltage Reference at PA0 (AREF) pin, Internal Voltage Reference
turned off.
Internal 1.1V Voltage Reference.
Reserved.
6
0
CC
T = {[(ADCH << 8) | ADCL] - TOS} / k
used as analog reference, disconnected from PA0 (AREF).
MUX5
R/W
5
0
MUX4
R/W
4
0
are typical values. However, due to the pro-
MUX3
R/W
3
0
MUX2
R/W
2
0
Table 4-50 on page
CC
MUX1
R/W
1
0
or an optional external
OS
is the temperature
MUX0
R/W
0
0
9137E–RKE–12/10
ADMUX
152. If
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