ATA5824-PLQW80 Atmel, ATA5824-PLQW80 Datasheet - Page 56

RF Transceiver RF Data Control Duplex Trans.

ATA5824-PLQW80

Manufacturer Part Number

ATA5824-PLQW80

Description

RF Transceiver RF Data Control Duplex Trans.

Manufacturer

Atmel

Datasheet

1.ATA5824-PLQW.pdf (98 pages)

Specifications of ATA5824-PLQW80

Wireless Frequency

435 MHz

Interface Type

4-Wire SPI

Noise Figure

6.5 dB

Output Power

10 dBm

Operating Supply Voltage

4.4 V to 5.25 V

Maximum Operating Temperature

+ 105 C

Mounting Style

SMD/SMT

Package / Case

QFN-48

Maximum Data Rate

5 Kbps

Minimum Operating Temperature

- 40 C

Modulation

ASK, FSK

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Figure 14-4. Timing Diagram During Bit-check

Bit-check counter

ATA5823/ATA5824

(Lim_min = 14, Lim_max = 24)

RX_ACTIVE

Demod_Out

Bit-check

Start-up mode

Startup_Sig_Proc

For the best noise immunity it is recommended to use a low span between T

This is achieved using a fixed frequency at a 50% duty cycle for the transmitter preburst. A

“11111...” or a “10101...” sequence in Manchester or bi-phase is a good choice concerning that

advice. A good compromise between sensitivity and susceptibility to noise regarding the

expected edge to edge time t

time window should be ±50% and then N

edge to edge time periods, the Bit-check limits must be programmed according to the required

span.

The Bit-check limits are determined by means of the formula below:

Lim_min is defined by the bits Lim_min 0 to Lim_min 5 in control register 5.

Lim_max is defined by the bits Lim_max 0 to Lim_max 5 in control register 6.

Using the above formulas, Lim_min and Lim_max can be determined according to the required

minimum edge to edge time t

The lower limit should be set to Lim_min

Lim_max = 63.

Figure

limits Lim_min = 14 and Lim_max = 24. The signal processing circuits are enabled during

fined during that period. When the Bit-check becomes active, the Bit-check counter is clocked

with the cycle T

Figure 14-4

the limits defined by Lim_min and Lim_max at the occurrence of a signal edge. In

page 57

also fails if CV_Lim reaches Lim_max. This is illustrated in

Lim_min

Startup_PLL

14-4,

, T

1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 101112131415161718 1 2 3 4 5 6 7 8 9 10 11

the Bit-check fails as the value CV_Lim is lower than the limit Lim_min. The Bit-check

Lim_max

and T

shows how the Bit-check proceeds if the Bit-check counter value CV_Lim is within

Figure 14-5

XDCLK

Startup_Sig_Proc

and T

XDCLK

and

. The time resolution defining T

. The output of the ASK/FSK demodulator (Demod_Out) is unde-

Figure 14-6 on page 57

is defined according to the section

1/2 Bit

is a time window of ±38%. To get the maximum sensitivity the

Bit-check

Bit-check mode

Bit check ok

Bit-check

10. The maximum value of the upper limit is

6. Using preburst patterns that contain various

illustrate the Bit-check for the Bit-check

Lim_min

Lim_max

1/2 Bit

Figure 14-6 on page

Lim_min

= Lim_min

= (Lim_max -1)

“Receiving Mode” on page

12131415 1 2 3 4 5 6 7

and T

Bit check ok

Lim_max

Lim_min

1/2 Bit

XDCLK

57.

is T

Figure 14-5 on

4829D–RKE–06/06

and T

XDCLK

Lim_max

. The

58.

ATA5824-PLQW80 Atmel, ATA5824-PLQW80 Datasheet - Page 56

ATA5824-PLQW80

Specifications of ATA5824-PLQW80

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