Panasonic Eco Solutions Nordic AB
MEW01622 Rev: - EBL128 Planning Instructions V2.0.x
28
Type, i.e. output for Control, Alarm devices, etc.
Output signal period (steady, pulse, delay, etc.)
Supervised / Not supervised
Logic, i.e. normally low (default) or normally high (24 V DC)
.
Control expression (containing one or more trigger conditions)
One to five 33K resistors can be connected. When the connections are
finished, a calibration has to be performed. Calibration value has to
be in the range 4K7-50K. See also the EBL128 Operating Instructions
chapter "Calibration of supervised outputs (menu H5/A1)".
Voltage Output 0 (J1:1-2): max. 200 mA (Fuse F1). "E"
(Brandmeldung)
Voltage Output 1 (J1:5-6): max. 200 mA (Fuse F2). "G" FSK öffnen
See also chapter "Programmable outputs", page 70.
Output 2 has to be programmed via EBLWin regarding:
Type, i.e. output for Control, Alarm devices, etc.
Output signal period (steady, pulse, delay, etc.)
Logic, i.e. normally open (default) or normally closed.
Control expression (containing one or more trigger conditions)
Output 2 (J1:11-12): Normally open (high resistance, 3K3) or
Normally closed (low resistance, 680R). German extinguishing
system (Löschanlage).
See also chapter "Programmable outputs", page 70.
Input 0-4 has to be programmed via EBLWin regarding:
Type ("trigger condition")
Supervised / Not supervised
Logic, i.e. Normally open (high resistance, 3K3, when supervised)
or Normally closed (low resistance, 680R, when supervised)
Additional information depending on selected type
Input 0 (J1:3-4): Fire alarm routing equipment fault (Melder
quittung)
Input 1 (J1:7-8): German key cabinet (FSK rückmeldung)
Input 2 (J1:9-10): German key cabinet (FSK überwachung)
Input 3 (J1:13-14): German extinguishing system (Löschanlage
ausgelöst)
Input 4 (J1:15-16): German extinguishing system (Löschanlage
quittung)
See also chapter "Programmable inputs", page 63.
A normally high output can not be supervised. The supervision voltage is
1.5 – 3.7 V DC (depending on the number of supervision resistors) and the
polarity is reversed compared to an activated output.
Regarding system voltage, see chapter "Technical data", page 143.
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