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參數(shù)資料
| 型號(hào): | P87C592EFA |
| 廠商: | NXP SEMICONDUCTORS |
| 元件分類: | 微控制器/微處理器 |
| 英文描述: | 8-bit microcontroller with on-chip CAN |
| 中文描述: | 8-BIT, OTPROM, 16 MHz, MICROCONTROLLER, PQCC68 |
| 文件頁數(shù): | 62/108頁 |
| 文件大小: | 650K |
| 代理商: | P87C592EFA |
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1996 Jun 27
62
Philips Semiconductors
Product specification
8-bit microcontroller with on-chip CAN
P8xC592
13.6.9.4
Error-Passive
An error-passive CAN-controller may transmit or receive
messages normally. In the case of a detected error
condition it transmits a Passive Error Flag instead of an
Active Error Flag. Hence the influence on bus activities by
an error-active CAN-controller (e.g. due to a malfunction)
is reduced.
13.6.9.5
Suspend Transmission
After an error-passive CAN-controller has transmitted a
message, it sends eight recessive bits after the
Intermission Field and then checks for Bus-Idle. If during
Suspend Transmission another CAN-controller starts
transmitting a message the suspended CAN-controller will
become the receiver of this message; otherwise being in
Bus-Idle it may start to transmit a further message.
13.6.9.6
Start-Up
A CAN-controller which either was switched off or in the
Bus-OFF state, must run a Start-Up routine in order to:
Synchronize with other available CAN-controllers before
starting to transmit. Synchronization is achieved, when
11 recessive bits, equivalent to Acknowledge Delimiter,
End-Of-Frame and Intermission Field, have been
detected (Bus-Free).
Wait for other CAN-controllers without passing into the
Bus-OFF state (due to a missing acknowledge), if there
is no other CAN-controller currently available.
13.6.10 A
IMS OF ERROR CONFINEMENT
13.6.10.1 Distinction of short and long disturbances
The CPU must be informed when there are long
disturbances and when bus activities have returned to
normal operation. During long disturbances, a
CAN-controller enters the Bus-OFF state and the CPU
may use default values.
Minor disturbances of bus activities will not effect a
CAN-controller. In particular, a CAN-controller does not
enter the Bus-OFF state or inform the CPU of a short bus
disturbance.
13.6.10.2 Detection and localization of hardware
disturbances and defects
The rules for error confinement are defined by the
CAN-protocol specification (and implemented in the
P8xC592's on-chip CAN-controller), in such a way that the
CAN-controller, being nearest to the error-locus, reacts
with a high probability the quickest (i.e. becomes
error-passive or Bus-OFF). Hence errors can be localized
and their influence on normal bus activities is minimized.
13.6.10.3 Error Confinement
All CAN-controllers contain a Transmit Error Counter and
a Receive Error Counter, which registers errors during the
transmission and the reception of messages, respectively.
If a message is transmitted or received correctly, the count
is decreased. In the event of an error, the count is
increased. The Error Counters have an non-proportional
method of counting: an error causes a larger counter
increase than a correctly transmitted/received message
causes the count to decrease. Over a period of time this
may result in an increase in error counts, even if there are
fewer corrupted messages than uncorrupted ones. The
level of the Error Counters reflect the relative frequency of
disturbances. The ratio of increase/decrease depends on
the acceptable ratio of invalid/valid messages on the bus
and is hardware implemented to eight.
If one of the Error Counters exceeds the Warning Limit of
96 error points, indicating a significant accumulation of
error conditions, this is signalled by the CAN-controller
(Error Status, Error Interrupt).
A CAN-controller operates in the error-active mode until it
exceeds 127 error points on one of its Error Counters. At
this value it will enter the error-passive state. A transmit
error which exceeds 255 error points results in the
CAN-controller entering the Bus-OFF state.
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