Firmware version V1.1.0
• FW update possible Yes
Product function
• I&M data Yes; I&M0 to I&M3
Engineering with
• STEP 7 TIA Portal configurable/integrated
as of version
V13 SP1 / -
• PROFIBUS as of GSD version/GSD revision
V1.0 / V5.1
• PROFINET as of GSD version/GSD revision
V2.3 / -
Operating mode
• DQ Yes
• DQ with energy-saving function No
• PWM No
• Cam control (switching at comparison values)
No
• Oversampling No
• MSO Yes
• Integrated operating cycle counter Yes
Supply voltage
Rated value (DC) 24 V
permissible range, lower limit (DC) 20.4 V
permissible range, upper limit (DC) 28.8 V
Reverse polarity protection Yes; through internal protection with 7 A per
groupType of digital output Transistor
Number of digital outputs 16
Current-sourcing Yes
Short-circuit protection Yes; Clocked electronically
• Response threshold, typ. 1 A
Limitation of inductive shutdown voltage to L+ (-53 V)
Controlling a digital inputwith resistive load, max. 100 Hz
• with inductive load, max. 0.5 Hz; According to IEC 60947-5-1, DC-13
• on lamp load, max. 10 Hz
Total current of the outputs
• Current per channel, max. 0.5 A; see additional description in the manual
• Current per group, max. 4 A; see additional description in the manual
• Current per module, max. 8 A; see additional description in the manual
Cable length
• shielded, max. 1 000 m
• unshielded, max. 600 m
Isochronous mode
Isochronous operation (application synchronized
up to terminal)
Yes
Execution and activation time (TCO), min. 70 µs
Bus cycle time (TDP), min. 250 µs
Interrupts/diagnostics/status information
Diagnostics function Yes
Substitute values connectable• between the channels No
• between the channels, in groups of 8
• between the channels and backplane bus Yes
Isolation
Isolation tested with 707 V DC (type test)
Standards, approvals, certificates
Suitable for safety-related tripping of standard
modules
Yes; From FS02
Highest safety class achievable for safety-related
tripping of standard modules

• Performance level according to ISO 13849-
1
PL d
• Category according to ISO 13849-1 Cat. 3
• SILCL according to IEC 62061 SILCL 2
Ambient conditions
Ambient temperature during operation
• horizontal installation, min. 0 °C
• horizontal installation, max. 60 °C
• vertical installation, min. 0 °C
• vertical installation, max.ue to the Diagnostics: Wire break function, there is a low level of residual current in the "0"
signal state at the output, which may cause the display diodes to flicker.
This residual current does not depend on the setting for the wire break diagnostics
parameter.The following graphs show the loading capacity of the digital outputs in relation to the
mounting position of the 1500 / Distributed I/O System ET 200MP automation system and
the ambient temperature.
The dimensional drawing of the module on the mounting rail, as well as a dimensional
drawing with open front cover, are provided in this appendix. Always observe the specified
dimensions for installations in cabinets, control rooms, etc.
Figure A-1 Dimension drawing of the DQ 16x24VDC/0.5A HF moduleThe data records of the module have an identical structure, regardless of whether you
configure the module with PROFIBUS DP or PROFINET IO.
Dependencies for configuration with GSD file
When a GSD file is used to configure a module, dependencies can arise when "assigning the
parameters".
There are no dependencies for this module. You can assign the individual parameters in any
combination.
Parameter assignment in the user program
You have the option to reconfigure the modules in RUN (e.g. the response of selected
channels to the CPU-STOP state can be changed in RUN without having an effect on the
other channels)
Parameter assignment in RUN
The WRREC instruction is used to transfer the parameters to the module using data sets 64
to 79. The parameters set in STEP 7 do not change in the CPU, which means the
parameters set in STEP 7 are still valid after a restart.
The parameters are only checked for plausibility by the module after the transfer.
Output parameter STATUS
The module ignores errors that occurred during the transfer of parameters with the WRREC
instruction and continues operation with the previous parameter assignment. However, a
corresponding error code is written to the STATUS output parameter.
The description of the WRREC instruction and the error codes is available in the STEP 7