LENZE EVS9323-ET EVS9323-ET EVS9323-ET EVS9323-ET EVS9323-ET EVS9323-ET

Comparison event for DQ1 occurred 6 When a comparison event for DQ1 occurs due to the selected
comparison condition, the technology function triggers
a hardware interrupt in the CPU.
When the change of the count value for an incremental or
pulse encoder was not caused by a count pulse, the technology
function does not trigger a hardware interrupt.
Zero crossing 7 At a zero crossing of the counter or position value, the
technology function triggers a hardware interrupt in the
CPU.
New Capture value present1) 8 When the current counter or position value is saved as a
Capture value, the technology function triggers a hardware
interrupt in the CPU.
Synchronization of the counter by an external
signal
9 At the synchronization of the counter by an N signal or
edge at DI, the technology function triggers a hardware
interrupt in the CPU.
Direction reversal2) 10 When the count value or position value changes direction,
the technology function triggers a hardware interrupt in the
CPU.
1) Can only be set in counting mode
2) Feedback bit STS_DIR is preset to "0". When the first count value or position value change occurs in the reverse direction
directly after switching on the digital on-board I/O, a hardware interrupt is not triggered32; A distributed I/O system is characterized not
only by the integration of distributed I/O via
PROFINET or PROFIBUS communication modules,
but also by the connection of I/O via AS-i
master modules or links (e.g. IE/PB-Link)
Number of DP masters
? Via CM 4; A maximum of 4 CMs/CPs (PROFIBUS,
PROFINET, Ethernet) can be inserted in total
Number of IO Controllers
? integrated 1
? Via CM 4; A maximum of 4 CMs/CPs (PROFIBUS,
PROFINET, Ethernet) can be inserted in totalVoltage, relative to input range, (+/-) 0.2 %
? Current, relative to input range, (+/-) 0.2 %
? Resistance, relative to input range, (+/-) 0.2 %
? Resistance thermometer, relative to input
range, (+/-)
Pt100 Standard: ±1 K, Pt100 Climate: ±0.5 K,
Ni100 Standard: ±0.6 K, Ni100 Climate: ±0.5 K
? Voltage, relative to output range, (+/-) 0.2 %
? Current, relative to output range, (+/-) 0.2 %
Interference voltage suppression for f = n x (f1 +/-
1 %), f1 = interference frequency
? Series mode interference (peak value of
interference < rated value of input range),
min.
30 dB
? Common mode voltage, max. 10 V
? Common mode interference, min. 60 dB; at 400 Hz: 50 dB

nterfaces
Number of PROFINET interfaces 1
1. Interface
Interface types
? Number of ports 2
? integrated switch Yes
? RJ 45 (Ethernet)The minimum value of the update time also depends
on communication share set for
PROFINET IO, on the number of IO devices, and
on the quantity of configured user data250 μs to 4 ms; Note: In the case of IRT with
isochronous mode, the minimum update time of
625 μs of the isochronous OB is decisive
– for send cycle of 500 μs 500 μs to 8 ms; Note: In the case of IRT with
isochronous mode, the minimum update time of
625 μs of the isochronous OB is decisive
– for send cycle of 1 ms 1 ms to 16 ms
– for send cycle of 2 ms 2 ms to 32 ms
– for send cycle of 4 ms 4 ms to 64 ms
– With IRT and parameterization of "odd"
send cycles
Update time = set "odd" send clock (any multiple
of 125 μs: 375 μs, 625 μs ... 3 875 μs)The minimum value of the update time also depends
on communication share set for
PROFINET IO, on the number of IO devices, and
on the quantity of configured user dataNumber of login stations for message functions,
max.
32
Program alarms Yes
Number of configurable program alarms 5 000
Number of simultaneously active program
alarms
? Number of program alarms 300
? Number of alarms for system diagnostics 100
? Number of alarms for motion technology
objectsNumber of available Motion Control resources
for technology objects (except cam
disks)
800
? Required Motion Control resources
– per speed-controlled axis 40