57
ECO-ECP iMANUAL December 2013 Rev. 03
TABLE 2 : CONNECTOR CN3
Terminal
Name
Function
Specifications
Notes
23
Common
Active protections output
Type: Not insulated open collector
Current: 100mA
Voltage: 30V
Max lenght: 30m
(3)
Both activating alarm and delay time
are programmable.
24
A.P.O.
25
Common
Jumper 50/60Hz
Type:
Not insulated
Max lenght: 3m
Selection of underspeed
(4)
26
50/60Hz
27
0EXT
Jumper for remote voltage
control 0÷2,5Vdc
Type:
Not insulated
Max lenght: 3m
Short for
0÷2,5Vdc input or
potentiometer
28
JP1
29
Jumper for remote
Type:
Not insulated
Max lenght: 3m
(3)
Regulation: ±10 %
(5)
Input remote voltage control
0÷2,5Vdc or Pext
30
PEXT
Input : 0÷2,5Vdc
or Potentiometer 100K
Burden: 0÷1mA (sink)
31
JP2
Type: Not insulated
Max lenght: 3m
Short for
0÷2,5Vdc input or
potentiometer
32
control
±10
Vdc
Input: ±10Vdc
Burden: ±1mA (source/sink)
Nota 3)
With external EMI filter (3m without EMI filter)
Nota 4)
50·(100%-αHz%) o 60·(100%-αHz%) where αHz% is the position relative to the Hz trimmer or the percentage value of parameter P[21]
Nota 5)
Value not to be exceeded. The effective range depends on parameter P[16]
DER1 regulator, on board of new generators, is already calibrated; in case of loose regulators (ie spare parts) or in case of wiring mo-
difications or adjusting, to guarantee its correct working, it must be accurately set .
Basic settings can be done directly on the regulator by its four trimmers (VOLT - STAB - Hz - AMP), the jumper 50/60, JP1, JP2 and
the Pext input. More detailed settings or measures can be done exclusively by software using for example the MeccAlte communica-
tion interface DI1 and the programs DSR_Terminal or DSR_Reader.
Remote control of voltage
The Pext input (terminal 30) and ±10V (terminal 32) allow to obtain remote control of the output voltage by means of a DC signal or
an external potentiometer. The output voltage can be controlled by software as well with the P[19]. The excursion range and gain of
the remote control can be set independently by software despite the output voltage control device system used (potentiometer, VDC
signal or P[19]). If DC voltage is used, it will take effect if it is within the range 0Vdc/2,5Vdc or -10Vdc/+10Vdc, when connected
between terminals 30 and 29 and subjected by jumpers JP1 and JP2; for values exceeding the aforementioned limits (or in the event
of disconnection), two options are possible: not to take the set point of external input and return to regulation to the voltage value set
with the trimmer (if enabled) or with parameter P[19], or keep the minimum (or maximum) value of voltage that can be reached (see
figures 3a and 3b). The second option can be set only with the
RAM Voltage CTRL
flag in the configuration menu corresponding to
the bit B7 of the configuration word P[10]The setting relative to the Vext input are summarised in table 3.
NOTE
: the source of DC voltage must be capable of absorbing at least 2 mA.
In making adjustments it is reccomended not to exceed the nominal value of voltage of the alternator beyond ± 10%
Relationship between analogical input and output voltage
Figure 3a:
without saturation of the output voltage upon
reaching the input voltage limits
Figure 3b:
with saturation of the output voltage upon
reaching the input voltage limits
Summary of Contents for ECO-ECP 2
Page 309: ...309 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP IMPORTANT...
Page 310: ...310 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP Mecc Alte...
Page 311: ...311 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 30 349 25 40 C 1000 EN60034 1...
Page 312: ...312 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 349 25 IP21...
Page 313: ...313 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP MD35 349 25 1 EN60204 1 50 60...
Page 314: ...314 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 348 24 40 C...
Page 316: ...316 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP g ECP28 h i 28 20 Nm 10 l h i...
Page 321: ...321 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 42 23 ECO ECP...
Page 324: ...324 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 28 31 32 34 38 40 43 46 38 40 43 46 A B...
Page 325: ...325 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 38 40 43 46...
Page 326: ...326 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP b c I 60 80 C...
Page 330: ...330 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP g 12V 30W Mecc Alte...
Page 331: ...331 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 15 12V 30 0 8 4 STAB Mecc Alte...
Page 333: ...333 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP ECO 40 ECO 43N ECO 46...
Page 336: ...336 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 2 3...
Page 337: ...337 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP S R 7 2 G 4 U V R 6 1 F 5 PD 350KVA PD...
Page 338: ...338 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 4A S R 7 2 G 12 U V R 6 1 F 12 5A...
Page 339: ...339 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 12 6 7 PD 350KVA PD...
Page 341: ...341 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 10 S R 7 2 G U V R 6 1 F 11 PD 350KVA PD...
Page 342: ...342 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 28 32 12 28 32 34 13...
Page 343: ...343 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 14 28 32 15 34...
Page 344: ...344 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 16 17 34 38 40 ECO40 ECO38N...
Page 345: ...345 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 18 19 38 38...
Page 346: ...346 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 20 21 40 43...
Page 370: ...370 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP IMPORTANTE...
Page 371: ...371 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP Mecc Alte...
Page 372: ...372 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 30 25 44 40 C 1000 EN60034 1...
Page 373: ...373 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 25 44 IP21...
Page 374: ...374 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP MD35 25 44 1 EN60204 1 50 60 C...
Page 375: ...375 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 24 43 40 C B3 B14...
Page 376: ...376 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP MD35 a L 24 43 L 0 5 2 28 28 8 28 d MD35...
Page 377: ...377 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP ECP28 28 20 10 i l...
Page 382: ...382 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP ECO ECP Mecc Alte 23 42...
Page 383: ...383 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 500 1 50 60 C fig a fig b fig c...
Page 386: ...386 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 38 40 43 46...
Page 387: ...387 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP Solvesso 60 80 C...
Page 391: ...391 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 12 30 Mecc Alte...
Page 394: ...394 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP ECO 40 ECO 43N ECO 46...
Page 397: ...397 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 2 3...
Page 398: ...398 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP S R 7 2 G 4 U V R 6 1 F 5 PD 350 P...
Page 399: ...399 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 4A 12 S R 7 2 G 12 U V R 6 1 F 5A...
Page 400: ...400 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 12 6 7 PD 350 P...
Page 401: ...401 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 12 S R 7 2 G 8 9 12 U V R 6 1 F...
Page 402: ...402 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 10 S R 7 2 G 11 U V R 6 1 F PD 350 P...
Page 403: ...403 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 28 32 12 28 32 34 13...
Page 404: ...404 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 14 28 32 15 34...
Page 405: ...405 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 16 17 34 38 40 ECO40 ECO38N...
Page 406: ...406 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 18 19 38 38...
Page 407: ...407 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP 20 21 40 43...
Page 427: ...427 ECO ECP iMANUAL December 2013 Rev 03 ECO ECP SCC0203 00 300 600 SCC0202 00 300 600...