Digikeijs DR5033 DIGIBOOST Bedienungsanleitung Seite 6

DR5033 BOOSTER 3 AMP
Connection
The DR5033 is connected to the control unit as indicated in the control unit manual.

Lenz units: via the CDE output on the control unit to the CDE input on the DR5033

Roco MultiMaus: via the booster-out on the control unit and the B-BUS input on the DR5033. Up to 4x DR5033 boosters can be
linked to each other (for more, a Roco 'braking module' is required; refer to the Roco manual).

Roco z21 (white): via the B-BUS output on the control unit and the B-BUS input on the DR5033. Up to 4x DR5033 boosters can
be linked to each other (for more, a Roco 'braking module' is required; refer to the Roco manual).

Roco Z21 (black): as for the z21 (white), with the additional option of connecting the L.NET input on the DR5033 to the L-BUS
output on the Z21, enabling the features of an L.NET-connected DR5033 and enabling the DR5033 to be configured and read
out by the Z21 maintenance tool using LNCV programming.

Intellibox (I, I-IR, COM, Basic and II) / Fleischmann TwinCenter / Piko PowerPox: via the LocoNet B output on the control unit to
the L.NET input on the DR5033.

Intellibox (I, I-IR): via the CDE connection on the control unit to the CDE input on the DR5033.

Other units that do not have CDE / B-BUS / L.NET can be connected via the rail output on the control unit to the RailSniffer in-
put on the DR5033.
Configuration
The DR5033 is set at the factory so that all of the control units tested (Lenz LZV100, Roco MultiMaus, Roco Z21, Roco z21 (white), In-
tellibox, TwinCenter and DR5000) work out of the box.
If you have a control unit that supports LNCV programming, you can configure the following on the DR5033:
LNCV's
LNCV Description
0 Module address
1 Firmware version (1000 = 1.000)
3 Configuration
6 H-bridge temperature in °C
7 Load percentage
Switching address to turn the booster on
8
or off
Turn on automatically following a short
circuit in 3 ms steps. The standard value
11
is equivaent to approx. 3/4 of a second
(750 ms)
LNCV 3 Configuratie
Bit Value Description
0 Not used
0
1 Not used
Star the output from the booster as soon as
0
there is an input signal
1
Start the output from the booster when the
2 GO button is pressed or the connected
switching address is 'green'
Booster sends no 'GPON/GPOFF' L.NET
0 report, even when there is a short circuit.
The automatic short circuit repair is active.
2
Booster sends 'GPON/GPOFF' L.NET re-
4 ports. The control unit controls when the
booster turns back on.
0 Not used
3
8 Not used
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Range Default LNCV Description
1-9999 1 12
- - 13
Zie onder 92 14
0-150 - 15
0-100 - 16
0-2048 0 17
64-30000 244 18
Default Bit
0 4
0 5
4 6
8 7
The waiting time after automatic polarity
reversal of the output prior to short circuit
being reported in 3 ms steps
The short-circuit or polarity-reversal ration
time in 3 ms steps
Optional switching address to reverse the
Polarity reversal ON to feedback A
Polarity reversal ON to feedback B
Polarity reversal OFF to feedback D
Polarity reversal OFF to feedback E
Value Description
Booster sends no special L.NET report if there
0
is a short circuit.
Booster sends a special L.NET report if there
16 is a short circuit enabling the control unit to
display which booster has a short circuit.
Start the booster output without reversed
0
polarity (blue LED off)
Start the booster output with reversed polari-
32
ty (blue LED on)
0 Automatic polarity reversal off
64 Automatic polarity reversal on
0 Not used
128 Not used
Range Default
32-250 48
16-250 32
0-2048 0
0-2048 0
0-2048 0
0-2048 0
0-2048 0
Default
16
0
64
0
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