T5743P3 ATMEL [ATMEL Corporation], T5743P3 Datasheet - Page 9

T5743P3

Manufacturer Part Number

T5743P3

Description

UHF ASK/FSK Receiver

Manufacturer

ATMEL [ATMEL Corporation]

Datasheet

1.T5743P3.pdf (41 pages)

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Polling Circuit and

Control Logic

Basic Clock Cycle of the

Digital Circuitry

4569A–RKE–12/02

Figure 8. Receiving Frequency Response

When designing the system in terms of receiving bandwidth, the LO deviation must be

considered as it also determines the IF center frequency. The total LO deviation is cal-

culated to be the sum of the deviation of the crystal and the XTO deviation of the T5743.

Low-cost crystals are specified to be within ±100 ppm. The XTO deviation of the T5743

is an additional deviation due to the XTO circuit. This deviation is specified to be

±30 ppm. If a crystal of ±100 ppm is used, the total deviation is ±130 ppm in that case.

Note that the receiving bandwidth and the IF-filter bandwidth are equivalent in ASK

mode but not in FSK mode.

The receiver is designed to consume less than 1 mA while being sensitive to signals

from a corresponding transmitter. This is achieved via the polling circuit. This circuit

enables the signal path periodically for a short time. During this time the bit-check logic

verifies the presence of a valid transmitter signal. Only if a valid signal is detected the

receiver remains active and transfers the data to the connected microcontroller. If there

is no valid signal present the receiver is in sleep mode most of the time resulting in low

current consumption. This condition is called polling mode. A connected microcontroller

is disabled during that time.

All relevant parameters of the polling logic can be configured by the connected micro-

controller. This flexibility enables the user to meet the specifications in terms of current

consumption, system response time, data rate etc.

Regarding the number of connection wires to the microcontroller, the receiver is very

flexible. It can be either operated by a single bi-directional line to save ports to the con-

nected microcontroller or it can be operated by up to five uni-directional ports.

The complete timing of the digital circuitry and the analog filtering is derived from one

clock. According to Figure 9, this clock cycle T

(XTO) in combination with a divider. The division factor is controlled by the logical state

at Pin MODE. According to section “RF Front-end”, the frequency of the crystal oscillator

of the local oscillator (f

XTO

) is defined by the RF input signal (f

-100.0

-20.0

-30.0

-40.0

-60.0

-80.0

-90.0

-50.0

-70.0

-10.0

0.0

-6.0

-5.0 -4.0

-3.0

-2.0

-1.0

RFin

df (MHz)

0.0

) which also defines the operating frequency

1.0

with SAW

Clk

2.0

without SAW

is derived from the crystal oscillator

3.0

4.0

5.0

6.0

T5743

T5743P3 ATMEL [ATMEL Corporation], T5743P3 Datasheet - Page 9

T5743P3

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