ATA8204P3-TKQY Atmel, ATA8204P3-TKQY Datasheet - Page 19

IC RCVR ASK/FSK UHF 433MHZ 20SSO

ATA8204P3-TKQY

Manufacturer Part Number
ATA8204P3-TKQY
Description
IC RCVR ASK/FSK UHF 433MHZ 20SSO
Manufacturer
Atmel
Datasheet

Specifications of ATA8204P3-TKQY

Frequency
433MHz
Sensitivity
-115dBm
Data Rate - Maximum
10 kbps
Modulation Or Protocol
ASK, FSK
Applications
General Purpose
Current - Receiving
8.5mA
Data Interface
PCB, Surface Mount
Antenna Connector
PCB, Surface Mount
Features
RSSI Equipped
Voltage - Supply
4.5 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Package / Case
20-SOIC (0.200", 5.30mm Width)
Pin Count
20
Screening Level
Industrial
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Memory Size
-
Lead Free Status / Rohs Status
Compliant
9. Data Clock
9.1
9121B–INDCO–04/09
Generation of the Data Clock
Figure 8-11
set the receiver back to polling mode using pin POLLING/_ON. The pin POLLING/_ON must be
held to low for the time period t
t
Using the POLLING/_ON command is faster than using pin DATA; however, this requires the
use of an additional connection to the microcontroller.
Figure 8-12
receiver to receiving mode using the pin POLLING/_ON. The pin POLLING/_ON must be held to
low. After the delay t
the programmed values for T
ues for T
Suppression” on page
If the receiver is polled exclusively by a microcontroller, T
manent sleep mode). In this case the receiver remains in sleep mode as long as POLLING/_ON
is held to high.
The pin DATA_CLK makes a data shift clock available to sample the data stream into a shift reg-
ister. Using this data clock, a microcontroller can easily synchronize the data stream. This clock
can only be used for Manchester and Bi-phase coded signals.
After a successful bit check, the receiver switches from polling mode to receiving mode and the
data stream is available at pin DATA. In receiving mode, the data clock control logic (Man-
chester/Bi-phase demodulator) is active and examines the incoming data stream. This is done,
as with the bit check, by subsequent time frame checks where the distance between two edges
is continuously compared to a programmable time window. As illustrated in
20, only two distances between two edges in Manchester and Bi-phase coded signals are valid
(T and 2T).
The limits for T are the same as used with the bit check. They can be programmed in the
LIMIT-register (Lim_min and Lim_max, see
28).
The limits for 2T are calculated as follows:
Lower limit of 2T:
Upper limit of 2T:
(If the result for ’Lim_min_2T’ or ’Lim_max_2T’ is not an integer value, it is rounded up.)
The data clock is available, after the data clock control logic has detected the distance 2T (Start
bit) and is issued with the delay t
If the data clock control logic detects a timing or logical error (Manchester code violation), as
illustrated in
clock. The receiver remains in receiving mode and starts with the bit check. If the bit check was
successful and the start bit has been detected, the data clock control logic starts again with the
generation of the data clock (see
on3
, the polling mode is active and the sleep time T
Sleep
“Timing Diagram of the OFF Command using Pin POLLING/_ON” illustrates how to
“Activating the Receiving Mode using Pin “POLLING/_ON” illustrates how to set the
Figure 9-2 on page 20
and N
on1
Bit-check
23).
Lim_min_2T = (Lim_min + Lim_max) – (Lim_max – Lim_min)/2
Lim_max_2T= (Lim_min + Lim_max) + (Lim_max – Lim_min)/2
, the receiver changes from sleep mode to start-up mode regardless of
Sleep
is ignored, but not deleted (see
on2
Delay
Figure 9-4 on page
and N
. After the positive edge on pin POLLING/_ON and the delay
and
after the edge on pin DATA (see
Bit-check
Figure 9-3 on page
ATA8203/ATA8204/ATA8205
Table 11-10 on page 28
. As long as POLLING/_ON is held to low, the val-
Sleep
21).
elapses.
Sleep
21, it stops the output of the data
must be programmed to 31 (per-
Section 10. “Digital Noise
and
Figure 9-1 on page
Table 11-11 on page
Figure 9-1 on page
20).
19

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