ATAVRDISPLAYX Atmel, ATAVRDISPLAYX Datasheet - Page 349
ATAVRDISPLAYX
Manufacturer Part Number
ATAVRDISPLAYX
Description
KIT EVAL XMEGA DISPLAY
Manufacturer
Atmel
Specifications of ATAVRDISPLAYX
Main Purpose
*
Embedded
*
Utilized Ic / Part
*
Primary Attributes
*
Secondary Attributes
*
Silicon Manufacturer
Atmel
Silicon Family Name
ATxmega
Kit Contents
Board
Features
Temperature Sensor, Mono Speaker Via Audio Amplifier
Svhc
No SVHC (15-Dec-2010)
Core Architecture
AVR
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
ATAVRDISPLAYX
Manufacturer:
Atmel
Quantity:
135
29.3.6
29.3.6.1
29.3.7
8077H–AVR–12/09
Serial Reception
Direction Change
BREAK detector
Figure 29-8. Drive contention and collision detection on the PDI_DATA line
As long as the PDI transmits alternating ones and zeros, collisions cannot be detected because
the output driver will be active all the time preventing polling of the PDI_DATA line. However,
within a single frame the two stop bits should always be transmitted as ones, enabling collision
detection at least once per frame.
When a start bit is detected, the receiver starts to collect the eight data bits and shift them into
the shift register. If the parity bit does not correspond to the parity of the data bits, a parity error
has occurred. If one or both of the stop bits are low, a frame error has occurred. If the parity bit is
correct, and no frame error detected, the received data bits are parallelized and made available
for the PDI controller.
When the PDI is in TX-mode, a BREAK character signalized by the programmer will not be inter-
preted as a BREAK, but cause a generic data collision. When the PDI is in RX-mode, a BREAK
character will be recognized as a BREAK. By transmitting two successive BREAK characters
(must be separated by one or more high bits), the last BREAK character will always be recog-
nized as a BREAK, regardless of whether the PDI was in TX- or RX-mode initially.
In order to ensure correct timing of the half-duplex operation, a simple Guard Time mechanism
is added to the PDI physical interface during direction change. When the PDI changes from
operating in RX-mode to operate in TX-mode, a configurable number of additional IDLE bits are
inserted before the start bit is transmitted. The minimum transition time between RX- and TX-
mode is two IDLE cycles, and these are always inserted. Writing the Guard Time bits in the PDI
Controller’s Control Register specifies the additional Guard Time. The default Guard Time value
is +128 bits.
Programmer
PDI output
PDI_CLK
PDI_DATA
Collision
output
detect
= Collision
1
0
X
1
X
1
XMEGA A
1
349
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