SAP51C-B-G1-R ZMDI, SAP51C-B-G1-R Datasheet - Page 47
SAP51C-B-G1-R
Manufacturer Part Number
SAP51C-B-G1-R
Description
Interface - Specialized ASI
Manufacturer
ZMDI
Datasheet
1.SAP51C-A-G1-R.pdf
(63 pages)
Specifications of SAP51C-B-G1-R
Rohs
yes
Product Type
Actuator Sensor Interface IC
Operating Supply Voltage
16 V to 34 V
Supply Current
6 mA
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Package / Case
SOP-16
Minimum Operating Temperature
- 25 C
If at least one of these errors occurs, the received telegram is treated invalid. In this case, the UART will not
generate a Receive Strobe signal. It moves to asynchronous state and wait for a pause at the AS-i line input.
After a pause was detected, the UART is ready to receive the next telegram.
Receive Strobe signals are generally used to validate the correctness of the received data. Receive Strobe
starts the internal processing of a master request. If the UART was in asynchronous state before the signal
was generated, it transforms to synchronous state thereafter. In case the received slave address matches the
stored address of the IC, the transmitter is turned on by the Receive Strobe pulse, letting the output driver
settle smoothly at the operation point (avoiding false pulses at the AS-i line).
4.15. Main State Machine
The Main State Machine controls the overall behavior of the IC. Depending on the configuration data stored in
the E²PROM, the State Machine activates one of the different IC operational modes and controls the digital
I/O ports accordingly. In Slave Mode it processes the received master telegrams and computes the contents
of the slave answer, if required. Table 6 on page 21 lists all master calls that are decoded by the SAP5 in
Slave Mode. To prevent the critical situation in which the IC gets locked in a not allowed state (i.e. by imission
of strong electromagnetic radiation) and thereby could jeopardize the entire system, all prohibited states of the
state machine will lead to an unconditioned logic reset which is comparable to the AS-i call ”Reset Slave
(RES)”.
4.16. Status Registers
Table 32 shows the SAP5 status register content. The use of status bits S0, S1 and S3 is compliant to the AS-
Interface Complete Specification. Status bit S2 is not used. The status register content can be determined by
use of a Read_Status (RDST) master request (refer to Table 6).
Table 32: Status Register Content
Status Register Bit
S0
S1
S2
S3
1
4.17. Communication Monitor/Watchdog
The IC contains an independent Communication Monitor that observes the processing of Data_Exchange
(DEXG) and Write_Parameter (WPAR) requests. If no such requests have been processed for more than
94.2ms (+4ms) the Communication Monitor recognizes a No Data/Parameter Exchange status and turns the
red status LED (LED2) on. Any following Data_Exchange or Write_Parameter request will let the
Communication Monitor start over and turn the red status LED off.
The Communication Monitor is only activated at slave addresses unequal to zero (0) and while the IC is
processing the first Write_Parameter request after initialization. It becomes deactivated at any IC Reset or
after the reception of a Delete_Address Request.
Activation of the Communication Watchdog depends on several E²PROM flags and the Parameter Port P0
Output Register
Data Sheet
October 20, 2011
unequal to “0” before. Additionally, it is set for the entire duration of each E
Status Bit S0 is set to ‘1’ as soon as a DELA master request was received and the slave address was
SAP5S / SAP51
Universal Actuator-Sensor Interface IC
© 2011 Zentrum Mikroelektronik Dresden AG — Rev. 3.0
All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without
the prior written consent of the copyright owner. The information furnished in this publication is PRELIMINARY and subject to
changes without notice.
Sx = 0
E
no periphery fault detected,
(input PFAULT = ‘1’),
E
Area content consistent
Static zero
E
2
2
2
PROM write accessible
PROM Firmware Area and Safety
PROM content consistent
Slave Address stored volatile and/or
E
progress)
periphery fault detected,
(input PFAULT = ‘0’),
parity bit error in E
Area or Safety Area
N/A
E
2
2
PROM access blocked (write in
PROM contains corrupted data
1
2
PROM write access.
Sx = 1
2
PROM Firmware
47 of 63
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