User manual
Toolbox 32 User Manual 1.47d www.cse-semaphore.com/mykingfisher
Page
267
#YMODE.
cc
Operation flags.
Ch1 1 = Qset messages enabled (default). Qset allows the RTU to
manage and relay set output messages to an outstation RTU.
These messages are usually initiated by SCADA software.
Read/Write
Ch2 1 = Disable automatic update of network list. Default = enabled
(network list is updated according to the network details of the
last message received). Eg. if the network link to RTU1 is
configured on port 3 and a message is received from RTU1 on
port 4, then the network list is updated to show RTU1 connected
via port 4.
Read/Write
Ch3 1 = Uploads event logs only if time and date of log is newer than
the last log uploaded (using RXUPD04 and newer driver). Older
logs are ignored. Default = ignore time and date, upload logs
from pointer onwards.
Read/Write
Ch4 1= Keep Ethernet port open on the redundant standby CPU. The
duty and standby CPUs can both have their Ethernet port
working simultaneously as long as
they are configured with
different Ethernet addresses (allows support for redundant
LANs).
Read/Write
Ch5 1 = Disable port 2 of the redundant standby processor Read/Write
Ch6 1 = Disable port 3 of the redundant standby processor Read/Write
#YPAGERS.
cc
Active pager status register. Channels 1 to 12 of this register indicate
which of the 1 to 12 pager receivers respectively are currently being sent
a message.
Read
#YPDTIME
Power Down Time in seconds (0-65535 sec = 0-18.2 hours). Writing a
number to this register causes the RTU to go into power-down mode for
the specified number of seconds. While in power-down mode, the RTU
switches off the various output supply voltages and puts the processor to
sleep (ladder logic and IO are not scanned). This reduces the power
consumption of the CPU module by more than half. When the RTU is
woken up (see #YPDSTAT), the Power Down Time register is reset to
zero. When in power-down mode, the WD and T1 LEDs on a PC-1
continually flash and the RTU will not respond to any messages until it is
woken up. The voltages that can be controlled are the same as for the IO
Power Saving Control as configured in Configuration, System
Parameters for the RTU. These voltages are:
• 24V output voltage from the IO modules (eg. AI-1, AI-10, IO-3, IO-4)
• 24V auxiliary supply from a PSU-1, PS-1, PS-xx or from a PC-1
• 12V Vr from a PC-1, PS-1 or PS-
xx. (Note: the 12V output supply from
an LM-2 or from a PC-1/MC-1 radio board is not switched off).
Read/Write
#YPDSTAT
Power down status. The power down status is used to program which
port(s) can wake the RTU up and is also used to indicate how the RTU
was last woken up. Writing a
1 to the appropriate channel enables that
port to wake the RTU up. When the RTU is woken up, the RTU will clear
the register and then set the channel corresponding to the wakeup event.
An RTU is woken up after the power down time has expired (see
#YPDTIME) or a CTS is detected on a configured serial port or a wakeup
message is received from a configured radio or private line port (a
wakeup message is configured by ticking the check box in the network
link of the initiating RTU). A CTS is detected on a serial port when a cable
with an RTS/CTS loop is
connected (these are standard in ADP-05
Toolbox cables). The 16 channels of #YPDSTAT are defined as follows:
Integer
Read/Write
Ch1 Time wake-up Read
Ch2-16
Ports 1-15 wake-up respectively Read/Write