AUTOMATIC VOLTAGE REGULATOR R630 · AUTOMATIC VOLTAGE REGULATOR R630 Installation and maintenance...
Transcript of AUTOMATIC VOLTAGE REGULATOR R630 · AUTOMATIC VOLTAGE REGULATOR R630 Installation and maintenance...
AUTOMATIC VOLTAGEREGULATOR
R630Installation and maintenance
Réf. 2352 - 4.33 / a - 6.96
GS3Ø
PowerVT
parallel running CT
2 measureVT
2 or 3 measure VT
Out of supply
or
OptionalBoosterboard
De-energizing
A V R
(Control)(Power)
3 boosterCT
Mains measureOut of supply
Commandinputs
Potentiometerinputs
Rotatingdiode failuredetector
(OPTION)
Fault outpu Alarm output
or
TABLE OF CONTENT
AVR CONSTITUTION ............................................................................................................................ 3
GENERAL DESCRIPTION : NT1950000 /a ........................................................................................... 4
CARDS DESCRIPTION : NT1950xxx .................................................................................................. 12
START-UP : NT1959000 /a .................................................................................................................. 45
2
AVRModel R630
NOTE
THE ELECTRICAL CONNECTION DIAGRAM ARE ONLY GIVEN
AS AN INDICATION. PLEASE REFER TO THE SPECIFIC DIAGRAMS
OF YOUR ALTERNATOR.
WARNING
TO PREVENT PERSONNAL INJURY OR EQUIPMENT DAMAGE,
ONLY QUALIFIED TECHNICIANS/OPERATORS SHOULD
INSTALL AND OPERATE THIS DEVICE.
CAUTION
MEGGERS AND HIGH POTENTIAL TEST EQUIPMENT MUST NOT BE
USED. INCORRECT USED OF SUCH EQUIPMENT COULD
DAMAGE THE SEMICONDUCTORS CONTAINED IN THE AVR.
3
Constitutiveelements
AVRModel R630
DESIGNATION N° printed N° complete N° instruction REMARKS
circuit board card manual
Wired empty rack C51950250 NT1950000/c-02/95 SHUNT (+booster)
Wired empty rack C51950251 NT1950001/b-10/94 PMG
Complete Generator I/O board C51950200 NT1950010/b-10/94 100 / 120V - 50 / 60Hz
Complete Generator I/O board C51950202 NT1950010/b-10/94 400 / 450V - 50 / 60Hz
3F Complete Mains I/O board C51950220 NT1950020/b-10/94 100 / 120V - 50 / 60Hz
3F Complete Mains I/O board C51950222 NT1950020/b-10/94 400 / 450V - 50 / 60Hz
2F Complete Mains I/O board C51950210
1F Complete Interface board C51950215
Rack supply CP1950040 C51950041 NT1950040/a-11/92
Sensing CP1950050 C51950051 NT1950050/a-11/92
PID, limitation CP1950060 C51950061 NT1950060/a-11/92
Driver CP1950070 C51950071 NT1950070/b-11/93
CosØ, KVAR CP1950080 C51950081 NT1950080/b-10/94
Limit Istator CP1950090 C51950091 NT1950090/a-11/92
Manual mode 1 CP1950100 C51950101 NT1950100/a-02/93
Digital U / P.F potentiometer CP1950110 C51950111 NT1950110/a-01/94
Digital Ified pot and Follower CP1950115 C51950141 NT1950115/a-01/94
Mains P.F régulation CP1950120 C51950121 NT1950120/a-04/94
Rotating diode fault detector CP1950130 C51950131 NT1950130/a-06/96 Available June 1996
= Neccessary
= Optionals
IMPORTANT : The informations given by this sheet must be used to order spare parts. Take care of it.
1 - APPLICATION- The AVR model R600 can be used with brusless self-excited type generators, "SHUNT", "SHUNT with BOOS-TER" or "SHUNT with PMG" excitation. In case of"SHUNT with BOOSTER the booster current is totallymonitored by the AVR.
- The AVR is able to ensure, depending of its constitu-tion, solo operation, parallel operation between equiva-lent generators or parallel operation with the mains withcosØ or KVAR regulation.
2 - DESCRIPTION- The AVR model R631 is composed of electronic cardswich are included in a rack 19" .
- Except the necessary "Generator I/O", the optional"mains I/O" located on the left of the rack and the "driver"card located on the right, all the other cards can be plug-ged anywhere in the rack. Future optional cards could beadded without any internal wiring modification.- The rear flat cable (BUS 64 points) is given more longas it can be connected to an optional interface terminalblock wich gives all the internal test points or in thefuture the possibility to connect another rack if the cardsnumber will become too important.
3 - INTERCONNECTIONS- External interconnections are located on the top of therack in form of two terminal blocks:
- A power / voltage terminal block (19 terminals, one witha fuse )
- A command / control terminal block (41 terminals)
- A conventional wiring connect this terminal blocks tothe power block fitted on a heatsink and also to the"generator I/O" and "mains I/O" to give an interface withthe flat cable BUS 64 points.
- In the same manner a 8 points connector connectsdirectly the driver card to the power block.
4 - OPTIONAL CARDS- CosØ / KVAR regulation (2F)- Voltage equalization with the mains (3F)- Voltage and P.F digital potantiometers- Manual operation- Ifield digital potentiometer with follower- Istator limitation- Mains P.F or KVAR regulation from 4-20mA sensor- Rotating diodes fault monitor
5 - SPECIFICATIONS- Sensing voltage :
• 100/110Vac 50Hz• 120/130Vac 60Hz • 380/420Vac 50Hz• 430/450Vac 60Hz
- Power supply :• Depend of generator(Adaptation by transformer). Maximum 180Vac 50/60Hz
- Field output :• 12 Amperes nominal, 24Amp maximum during 10s on 6Ω minimum
- Accuracy :• +/-1% of the means of the three phases on linear load and without droop
- Voltage setting range :• +/-10% of the nominal voltage by means of external optionnal potentiometer .
- Droop setting range :• - 7% of the nominal voltage at cosØ =0
- Under-frequency protection :• Adjustable threshold and slope from V/Hz to 2V/Hz
- Field ceiling :• 110% of If nominal permanently, unlocked in case of voltage decrease
- Protection :• Heatsink overheating, exciter short-circuit
- Alarm output :• Heatsink overheating, too much ceiling unlocked time
- Environnement :• Maximum ambiant temperature -10°C to +50°C• Fitting in control panel without excessive vibrations
6 - SCHEMATICS AND DRAWINGSFollowing schematics give all the usual informations onthe interconnexions between the terminal block, the I/Oconnectors and the power block.
4
Generaldescription
AVRModel R630
NT1950000/c-02/95 f:1/8
5
Generaldescription
AVRModel R630
NT1950000/c-02/95 f:2/8
MIMIC DIAGRAM EXCITATION - REGULATION
GS3Ø
PowerVT
parallel running CT
2 measureVT
2 or 3 measure VT
Out of supply
or
OptionalBoosterboard
De-energizing
A V R
(Control)(Power)
3 booster CT
Mains measureOut of supply
Commandinputs
Potentiometerinputs
Rotatingdiode failure
detector(OPTION)
Fault output Alarm output
or
TERMINAL BOX
COMMAND / CONTROL TERMINAL BLOCK
VO
LTA
GE
PO
T
CO
SØ
PO
T
CO
SØ
PO
T
CO
SØ
PO
T
Mea
sure
If
Mea
sure
If
21 22 23 24 25 26 27 28
CO
SØ
CM
D
KV
AR
PO
T
KV
AR
PO
T
KV
AR
PO
T
29 30 31 32
U/U
CM
D
ALA
RM
U/U
CM
D
ALA
RM
ALA
RM
+ 2
4Vdc
ext
- 24
Vdc
ext
CO
SØ
CM
D
33 34 35 36 37 38 39 40
+ C
MD
U /
P.F
41 42 43 44
Aut
o / M
anu
Info
Aut
o / M
anu
Aut
o / M
anu
Info
Aut
o / M
anu
45 46 47 48 49 50 51 52
-Iex
c C
MD
+Ie
xc C
MD
Com
mun
53
SH
IELD
S
20
VOLTAGE / POWER TERMINAL BLOCK
U M
AIN
S
V M
AIN
S
W M
AIN
S
// C
T
1 2 3
U M
AC
HIN
E
V M
AC
HIN
EW
MA
CH
INE
+ Fi
eld
- Fie
ld
4 5 6 7 8 9 10 11 12
// C
T
13 14 15 16 17 18 19
Au
xilia
ry v
olt
age
53 54 55 56 5357 58 59 5360
Ifiel
d P
ot
Man
ual p
ot
CO
SØ
/ K
VA
R C
MD
Rés
erve
Rés
erve
Rés
erve
Rés
erve
Rés
erve
Rés
erve
Rés
erve
Po
wer
su
pp
ly
Po
wer
su
pp
ly (
fuse
)
VO
LTA
GE
PO
T
VO
LTA
GE
PO
T
VO
LTA
GE
CM
D
+ F
ield
flas
h
+ B
oo
ster
- B
oo
ster
Au
xilia
ry v
olt
age
- C
MD
U /
P.F
6
Generaldescription
AVRModel R630
NT1950000/c-02/95 f:3/8
TERM N° VOLTAGE / POWER TERMINAL BLOCK 0F 1F 2F 3F1 Phase 1 (U) machine (measure) N N N N2 Phase 2 (V) machine (measure) N N N N3 Phase 3 (W) machine (measure) N N N N4 + fiel flashing or pre-excitation input (optional) O O O O5 + field output N N N N6 - field output N N N N7 + booster input O O O O8 - booster input O O O O9 Paralleling CT phase 2 (V) S1 N N N10 Paralleling CT phase 2 (V) S2 N N N11 Not connected12 Phase 1 (U) mains (measure) N13 Phase 2 (V) mains (measure) N14 Phase 3 (W) mains (measure) N15 Not connected16 Auxiliairy voltage input N N N N17 Auxiliairy voltage input N N N N18 Power supply input N N N N19 Power supply input (fused) N N N N
COMMAND / CONTROL TERMINAL BLOCK20,20,20 Potentiometer shield (3 terminals) O O O O
21 External voltage potentiometer maximum CW) O O O O22 External voltage potentiometer (10KΩ-2W) (cursor) O O O O23 External voltage potentiometer ( minimum CCW) O O O O24 External voltage input (10Vdc, 0V to terminal 20) O O O O25 Fied current measurement output (+Vdc) O O O O26 Fied current measurement output (0V) O O O O27 External cosØ potentiometer maximum CW) O O28 External cosØ potentiometer (10KΩ-2W) (cursor) O O29 External cosØ potentiometer ( minimum CCW) O O30 External KVAR potentiometer maximum CW) O O31 External KVAR potentiometer (10KΩ-2W) (cursor) O O32 External KVAR potentiometer ( minimum CCW) O O33 cosØ regulation command input N N34 cosØ regulation command input N N35 Voltage equalization command input N36 Voltage equalization command input N37 Overheating or ceiling unlocked time alarm (common) O O O O38 Overheating or ceiling unlocked time alarm output (NC) O O O O39 Overheating or ceiling unlocked time alarm output (NO) O O O O40 External +24Vdc supply input ( relay locking) O O O O41 External 24Vdc supply input ( relay locking) common O O O O42 Upper command voltage and P.F O O O O43 Lower command voltage and P.F O O O O44 Common O O O O45 Upper command Ifield (manu) O O O O46 Lower command Ifield (manu) O O O O47 "AUTO / MANU" command input (Open = "AUTO") O O O O48 "AUTO / MANU" command input (Open = "AUTO") O O O O49 "AUTO / MANU" image output O O O O50 "AUTO / MANU" image output O O O O51 Ifield direct manual setting potentiometer O O O O52 Manual mode 1 card Ifield setting potentiometer (10KΩ) O O O O53 CosØ / KVAR selection command input (/ terminal 48) O O54 Reserve55 Reserve56 Reserve57 Reserve
O = Optional O = OptionalN = Neccessary N = Neccessary
Nothing = Not applicable Nothing = Not applicable
7
Generaldescription
AVRModel R630
NT1950000/c-02/95 f:4/8
18
19
RBD
1µF400V
2x1000µF350V in //
or2200µF 400V
56
78
9c 10c
4 47Ω 50W
+15 -15M
+
P41 4 6 72 3 85
1 4 6 8 72 3
69 70
7
4
5
8
6
19
18
5
5 5
60
8 8
8
7
18
R C
60
8
5
63
64
B
B
1 4 6 8 72 3 5
LEM Card
C1
E1
G1
C2
E2
G2
7
8
OPTION
65
Connector LMI 8pts
Power supply
Power supply
Freewheelingdiode
OVDCPower supply
+VDCPower supply
HALL sensor
Boostermonitor
ON HEATSINK
+ Field
- Field
+ Booster
- Booster
To 32 points connectorP4 on "MAINS I / O"
POWER TERMINALS
+ Field flashing
POWER BLOCK REF: C5 195 2100Power wiring
Thermocontact
To LMI 8 points connectoron driver card
U MAINS
W MAINS
1213
14
U/U CMDU/U CMD 35
36
12
3
U MACHINE
V MACHINEW MACHINE
4
// CT
910
11
// CT
16
17
Auxiliary supply
+ 24Vdc ext- 24Vdc ext
40
+U CMD-U CMD
41
4243
44
Auto / Manu
Info Auto / Man
Auto / ManuInfo Auto / Man
4546
4748
4950
5152
-If CMD+If CMD
Commun
53
15c
13c
11c
16c
10c
1a
1c
VOLTAGE POT
21
22
23
24
Measure If
25
Measure If
26
COSØ POT
27
COSØ POT
28
COSØ POT
29
KVAR POT
30
KVAR POT
31
KVAR POT
32
COSØ CMD
33
COSØ CMD
34
SHIELDS
20 10c
7a3c6c3a4a
10c5c8a6a12a
4c5a14a2c
2c14c13a2c12c8c15a2c9c11a
15c
11c
7c
2c4c
2a
16a
P4 MAINS I/O
J1 bacGenerator
I/OCONTROL TERMINALS
Connectors wiring 32ptsPOWER TERMINALS
V MAINS
2c
1a3a3c
Ifield POT
COSØ / KVAR
37
38
7c9a39 10a
ALARMALARM
ALARM
54
55
RESERVERESERVE 56
57
RESERVERESERVE 58
59
RESERVERESERVE 60RESERVE9a
2a
7a8a
6a
4a5a
Manual POT
CONTROL TERMINALS
POWER TERMINALSCONTROL TERMINALS
VOLTAGE POTVOLTAGE POTVOLTAGE CMD
Auxiliary supply
61RESERVE5c
- The following tables give interconnections betweeneach card and the 64 points flat cable.- Grey cases give signals origine.- Other cases where they go. - On the left we have two numbers : • First the connector numering • Second test block terminal number- On the right we have a recapitulative of all the informa-tions wich can be found on the test terminal block.
8
Generaldescription
AVRModel R630
NT1950000/c-02/95 f:5/8
R630 POWER BLOCK SHUNT (+ BOOSTER)
ConnectorLMI 8points
64
60
6 5
8
18
63
19
5
85
8
7
60
5
8
18
6767
300mm132mm
120mm
2200µF 400V
LEM board 74mm x 78mm
1µF400Vac
9c 10c
To MAINS I / O P4
7
56
78
ARCOL 47Ω 50W4
5
8
6
7
4
19
1819Power supply
Power supply
+ Booster
- Booster
+ Field flashing
+ Field
- Field
18
BoosterIGBT
MainIGBT
Rectifier bridge
LEM
9
Generaldescription
AVRModel R630
NT1950000/c-02/95 f:6/8
PIN
PIN
Gen
I/O
Mai
ns I/
OS
uppl
yS
ensi
ngP
ID, l
imit
Cos
Ø,K
VA
RP
ot d
igita
l UP
ot d
igita
l Iex
cM
anu
mod
eD
river
te
st o
utpu
t
1c1
+V
cc+
Vcc
+V
cc+
Vcc
+V
cc+
Vcc
+V
cc+
Vcc
+V
cc+
Vcc
+V
cc
1a2
+V
cc+
Vcc
+V
cc+
Vcc
+V
cc+
Vcc
+V
cc+
Vcc
+V
cc+
Vcc
+V
cc
2c3
+V
dc a
lim+
Vdc
alim
+V
dc a
lim
2a4
+V
dc a
lim+
Vdc
alim
+V
dc a
lim
3c5
-Vdc
alim
-Vdc
alim
-Vdc
alim
3a6
-Vdc
alim
-Vdc
alim
-Vdc
alim
4c7
Vac
pui
ss 1
Vac
pui
ss 1
Vac
pui
ss 1
Vac
pui
ss 1
4a8
Vac
pui
ss 2
Vac
pui
ss 2
Vac
pui
ss 2
5c9
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
D
5a10
Vac
-dr1
Vac
-dr1
6c11
Vac
-dr2
Vac
-dr2
6a12
Vac
-dr3
Vac
-dr3
7c13
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
D
7a14
Vac
-dm
1V
ac-d
m1
Vac
-dm
1
8c15
Vac
-dm
2V
ac-d
m2
Vac
-dm
2V
ac-d
m2
8a16
Vac
-dm
3V
ac-d
m3
Vac
-dm
3
9c17
V-1
0%V
-10%
V-1
0%V
-10%
9a18
TI//
TI//
TI//
TI//
10c
19D
épha
sage
Dép
hasa
ge
10a
20U
res
Ure
sU
res
11c
21U
mU
mU
m
11a
22U
ref
Ure
fU
ref
Ure
f
12c
23C
orre
ct P
IDC
orre
ct P
IDC
orre
ct P
ID
12a
24Is
inØ
Isin
Ø
13c
25U
regl
Ure
glU
regl
13a
26S
tatis
me
DS
tatis
me
DS
tatis
me
D
14c
27co
sØ, K
VA
Rco
sØ, K
VA
Rco
sØ,K
VA
R
14a
28Ic
osØ
Icos
ØIc
osØ
15c
29S
auto
Sau
toS
auto
Sau
toS
auto
15a
30S
man
uS
man
uS
man
uS
man
u
16c
31cd
e Ie
xccd
e Ie
xccd
e Ie
xccd
e Ie
xccd
e Ie
xc
16a
32G
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
10
Generaldescription
AVRModel R630
NT1950000/c-02/95 f:7/8
PIN
PIN
Gen
I/O
Mai
ns I/
OS
uppl
yS
ensi
ngP
ID, l
imit
Cos
Ø, K
VA
RP
ot d
ig U
Pot
dig
Iex
Man
u m
ode
Driv
er p
uiss
test
out
put
17c
33G
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
17a
34M
es Ie
xcM
es Ie
xcM
es Ie
xc
18c
35sy
nchr
oP
erte
syn
chro
Per
te s
ynch
ro
18a
36I l
imit
I lim
itI l
imit
19c
37G
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
19a
38F
in r
ampe
Fin
ram
peF
in r
ampe
Fin
ram
pe
20c
39 U
cos
ØU
cos
ØU
cos
ØU
cos
Ø
20a
40P
.F/K
VA
RP
.F/K
VA
RP
.F/K
VA
RP
.F/K
VA
R
21c
41U
KV
AR
U K
VA
RU
KV
AR
U K
VA
R
21a
42P
ot te
nsio
nP
ot te
nsio
nP
ot te
nsio
n
22c
43U
tens
ion
U te
nsio
nU
tens
ion
22a
44+
Iexc
+Ie
xc+
Iexc
23c
45-I
exc
-Iex
c-I
exc
23a
46+
Uau
to+
Uau
to+
Uau
to
24c
47-U
auto
-Uau
to-U
auto
24a
48C
de r
eg c
osØ
Cde
reg
cos
ØC
de r
eg c
osØ
25c
49C
de U
=U
Cde
U=
UC
de U
=U
25a
50cd
e au
to/m
anu
Cde
A/M
cde
auto
/man
ucd
e au
to/m
anu
cde
auto
/man
u
26c
51D
éfau
t T°C
Déf
aut T
°CD
éfau
t T°C
26a
52re
serv
e
27c
53C
de U
Cde
UC
de U
27a
54re
serv
e
28c
55re
serv
e
28a
56re
serv
e
29c
57re
serv
e
29a
58re
serv
e
30c
59M
ax p
otM
ax p
ot Ie
xc
30a
60M
ax p
otM
ax p
ot U
/P.F
31c
61re
serv
e
31a
62A
larm
Ala
rmA
larm
32c
63-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc
32a
64-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc-V
cc
11
Generaldescription
AVRModel R630
NT1950000/c-02/95 f:8/8
1
19
20
60
Blo
c p
uis
san
ceP
ow
er c
om
po
nen
ts
Bo
rnie
rT
erm
inal
blo
ckB
orn
ier
Ter
min
al b
lock
Rad
iate
ur
Hea
tsin
k
12
34
56
78
910
1112
40
3 14
370
436
Bac
alte
rnat
eur
alte
rnat
orI /
O
Bac
rése
aum
ains
I / O
optio
n
Alim
ent.
supp
ly
Dét
ect.
sens
ing
KV
AR
cos
Ø
optio
n
PID
et
limite
PID
and
limit
Lim
iteI s
tato
r
I sta
tor
limit
optio
n
Driv
erpu
iss.
pow
erco
ntro
l
466,
7
482,
6
==
37,757,137,7
132,5
Bo
rnie
rT
erm
inal
blo
ckB
orn
ier
Ter
min
al b
lock
165
356
9,5
15
Dat
e : 3
0/12
/92
Ver
if :
L .
DD
es.
: P
. B
EN
CO
MB
RE
ME
NT
RE
GU
LA
TE
UR
de
TE
NS
ION
AU
TO
. VO
LT
AG
E R
EG
UL
.GE
NE
RA
L A
RR
AN
GE
ME
NT
---
----
----
----
----
----
---
SH
UN
T -
- -
Ser
ie :
R
600
N °
EN
182
251
1
4500
5 O
RL
EA
NS
FR
AN
CE
A C
E O
Ate
liers
de
Co
nst
ruct
ion
s E
lect
riq
ues
d'O
rléa
ns
:R63
0
1 - FUNCTIONAL- This unit is mainly an interface between external signalsand low power electronics.
- It is composed by :• The adaptation three phases transformer between inputvoltage and measurement circuits.• The burden resistor of parallel CT.• The adaptation transformer between input voltage andlow power electronic supplies.
• The interface input relays between command / controlterminals and internal circuits.• The interface between 64pts BUS and the analogic in-put / output terminals
2 - ADJUSTMENTS- Setting of the auxiliary input voltage (terminals 16,17) :(110 or 220Vac) by jumpers.
3 - INPUT / OUTPUTSee following table
12
GeneratorI / O
AVRModel R630
NT1950010/b-10/94 f:1/3
INPUT Connector Type Interface Connector ConnectorTERMINAL 32 PTS I / O 26 PTS BUS 64 PTS
1 15c measure transfo 3Ø TP4 4 7a1 15c alim transfo TP22 13c measure transfo 3Ø TP4 2 8c2 13c alim transfo TP1/23 11c measure transfo 3Ø TP4 3 8a3 11c alim transfo TP19 16c measure resistance RTI 5 9a10 10c measure GND 1 7c16 1a alim transfo TP3 4c17 1c alim transfo TP3 4a
20 10c shield GND 1 7c21 7a signal resistance 13 11a22 3c signal direct 14 21a23 6c signal resistance 15 7c24 3a signal direct 16 22c25 4a signal direct 21 17a26 10c signal GND 1 7c27 5c signal resistance 6 1c28 8a signal direct 17 20c29 6a signal resistance 23 32a30 12a signal resistance 6 1c31 4c signal direct 19 21c32 5a signal resistance 23 32a33 14a cmd input relay 8 24a34 2c cmd input relay37 7c cmd output relay 25 31a38 9a cmd output relay 25 31a39 10a cmd output relay 25 31a40 2a ext supply relay41 2c ext supply relay42 14c cmd input relay 9 23a43 13a cmd input relay 10 24c44 2c common relay45 12c cmd input relay 11 22a46 8c cmd input relay 12 23c47 15a cmd input relay 7 25a48 2c cmd input relay49 9c cmd output relay 12 23c50 11a cmd output relay
13
GeneratorI / O
AVRModel R630
NT1950010/b-10/94 f:2/3
Pot U
Pot U
20c
21c
31a
17a
cosØ pot
cosØ pot
KVAR pot
KVAR pot
cmd by U 22c
-Vcc 32a
Info Alarm
Info AlarmInfo Alarm
cosØ pot
KVAR pot
Measure If
11a
7c21aPot U
U alt
V alt
W alt
// CT
7a
8c
8a
9a7c
Alim auxil16a,17c
2c,2a
3c,3a
4c4a
R1
// CT - GND
cosØ cmd
Auto/Man
+U
- U
+I exc
-I exc
-24Vdc
25a
24a
23a
24c
22a
23c
+24Vdc U/U
Info Man
Info Man
+Vcc 1c
Wiring by connector HE10 26pts and flat cable
Wiring by connector LMI 10pts and normal cables
+Vcc
+Vcc
+24Vdc ex
TP4
TP2
TP1
TP3
15c
13c
11c
16c
10c
1a
1c
2a2c
15a
16a
14c
14a
12c
13a
8c
11a
9c
7a3c
3a6c
5c
8a6a
12a4c5a
7c
9a10a
4a 21
25
19
23
17
1516
1314
9
12
10
11
7
8
6
51
3
2
4
2
1
7
8
3
64
5
910
Connector HE10 26Pts
Male Connector DIN41612 32Pts
48 47
34 33
44 42
44 43
44 45
44 46
40
17
16
10
9
3
2
1
30
3231
292827
2221
2423
3938
37
25
49
50
Terminal N°
Terminal N°
CR1
C1 C2
Q1
K1
K2
K3
K4
K5
K6K7
CR3
CR4
CR5
CR6
CR7
CR8
CR2R14
R17 DS1
R13
R18 DS2
R12
DS3
R11
DS4
R10
DS5
R9
DS6
R8
R7
R6
R5
R4
R3
K8 CR9 R15
DS7
R2
R16
CR21to 24
CR5 to 10
CR11 to 16
CR17 to 20
PT3
PT2
PT1
Alim auxil 220V
110V
04/10/94
Male Connector DIN41612 64Pts
04/10/94
14
GeneratorI / O
AVRModel R630
NT1950010/b-10/94 f:3/3
TP4
relai LED
R T
I//
ConnectTP328VA
TP115VA
Connect
TP328VA
TP215VA
7812
Capa
TP1 TP2
TP4
TP1 TP2
TP328VA
TP4
ALTERNATEUR E / SGENERATOR E / S
PT3
PT2
PT1
-U auto
+U auto
Cde cosØ
auto/manu
Alarm
-I exc
+I exc
1 - FUNCTIONAL- This card, from not regulated symetrical voltage, genera-tes +15Vdc and -15Vdc voltages with 0V common to bothnamed +Vcc for +15V and Vdd for -15V in the following.- The non regulated voltages are first filtered (C01, C02),pre-regulated to 20dc with ballast stages Q01 et Q02and finally decreased to15V by means of RG01 et RG02regulators. - Its permanent current capability is 0,5 Amp on bothpolarity.
2 - ADJUSTMENTSNone
3 - INPUTS / OUTPUTS- 2a, 2c : Input +30Vdc not regulated- 3a,3c : Input -30Vdc not regulated- 1a,1c : Output +15Vdc regulated (Vcc)- 32a,32c : Output -15Vdc regulated (Vdd)- 16a,17c : Common electronic ground
15
Supplycard
AVRModel R630
NT1950040/a-11/92 f:1/2
MIMIC DIAGRAM OF ELECTRONIC SUPPLY CARD
+V notregulated
2a,2c Regulator +15Vdc
LED+15V
32c,32a
1c,1a
16a,17c
-Vdd
+Vcc
0V
Pre-regulFilter
3a,3c Regulator -15Vdc
LED-15V
0v 16a,17c
-V notregulated
Pre-regulFilter
16
Supplycard
AVRModel R630
NT1950040/a-11/92 f:2/2
ALIMENTATIONSUPPLY
P T 3
P T 2
PT1
-15V
+15V
C05
C01R01
CR01
CR03
R02
CR02C02
Q01
Q02
7915
7815
RG01
RG02
CR04 C06
3,4
32,33
5,6 63,64
1,2
C03
C04
DS2
DS1
R03
R04
TP1
TP3
TP2
330Ω
BZX85C201000µF 40V
1000µF 40V
330Ω BZX85C20
0,33µF 63v
0,33µF 63v
3,3KΩ
3,3KΩ
0,33µF 63v
0,33µF 63v
1N4007
1N4007
TIP41
TIP42
1 - FUNCTIONAL- This card elaborates from the three phases voltageimage of the generator given by the "ALTERNATOR I/O" :- A rectified, calibrated, filtered voltage Vm proportionalto the stator voltage of the generator. Vm could be affect-ed by droop depending of adjustment. - A voltage function of the generator frequency, a part ofwhich gives the reference set point named Vref.- Vref is a constant above the underfrequency thresholdset point (signaled by LED) and decreases below thisthreshold following a function depending of the positionof the strap CV1: • In fixed V/Hz mode • In adjustable kVolt / Hz (see curve below)
2 - ADJUSTMENTS- P1 : Reactive droop adjust for parallel operation bet-ween equivalent machine.- P2 : Vm adjust for nominal voltage. (9Vdc at Un)- P3 : Underfrequency threshold adjust (normally Fn -5%) signaled by LED.- P4 : Underfrequency slope adjust ( k ) in kVolt / Hz mode(1≤ k ≤2)- P5 : Voltage set point Vref for the nominal voltage(10Vdc at Un and Fn)
3 - INPUTS / OUTPUTS- 7a, 8a, 8c : Voltage inputs image of the generator (3 x
21Vac between each and the GND)- 9a : Current input image of the generator stator
current (1Vac pour In)- 1a,1c : +15Vdc regulated (Vcc)- 32a,32c : -15Vdc regulated (Vdd)- 16a,17c : Common ground (GND or 0V)- 11c : Voltage output image of the generator (Vm)
10Vdc at Un- 11a : Voltage set point output (Vref) 10Vdc at
Un and Fn
17
Sensingcard
AVRModel R630
NT1950050/a-11/92 f:1/2
Mode Volt / Hz
Fn - 5% Fn Hz
Volt
Un
Mode k x Volt / Hz
AC / DC
AC / DC
AC / DC
Σ VmUmVmWm
TI //
F -> kVVoltageset point
Threshold U/Fk
Vref
Filter
Reactivedroop
8a
7a
8c
9a
32c,32a
1c,1a
16a,17c
-Vdd
+Vcc
0V
11c
11a
LED
MIMIC DIAGRAM OF SENSING CARD
18
Sensingcard
AVRModel R630
NT1950050/a-11/92 f:2/2
8c
7a
R1R3
R2
R4
Z1
Z2
D2
R5
D1
R6
R8
R7
R9
Z3
Z4
D4
R10
D3
R11R13
R12
R14
Z5
Z6
D7
R15
D6
C10
P1
Reg 1
C8
C11
C6
C4
C7
Vcc
Ur
Vdd
R16
R18
R17
R19
C1
R21
CV1
P2
R20
R22
R23
R25
C3
C2
R24
R30
R28
D7P4
R29
P5R27
C9R26
P3
C5
MN4
1 2 43
5678
Vcc Ur
LED
MN3
MN2
MN2
MN2
MN2
MN1
MN1
MN1
MN1
8a
9a
1c,1a
16a,17c
32c,32a
11a
11c
Vm
Vref
DETECTIONR600
22/06/92
DETECTIONSENSING
Vref
U/kf
Vm
Statisme/Droop
U/f
Sous vtesse
Underfrequency
P5
P4
P3
P2
P1
FRONT VIEW
SENSING CARD
Principle diagramSENSING card
1 - FUNCTIONAL- This card, from Vm (machine voltage image), Vref(voltage set point) and complementary informationsgiven in the following, elaborates the voltage commandof the power driver card, which is the field current setpoint.
- Three operating modes are possible, depending of ex-ternal informations :
• Solo operation or parallel operation between equiva-lent machines (1 Fonction) (this is the normal mode)
• Parallel operation with the mains with power factor(COSØ) or KVAR regulation (2 Fonction)(only if COSØ / KVAR card is fitted)
• Operation in voltage equalization mode betweenmachine and mains before coupling (3 Fonction)(only if "MAINS I / O" CARD is fitted)
1F : Machine image Vmis compared with the sum ofVref, Pext, etc voltages depending of used options andthe resultant voltage (error voltage ) feeds the PID.
2F : When cosØ cmd input is activated (+Vcc), themachine voltage Vm is compared to the voltage givenfrom the cosØ/KVAR card and the result (error voltage)feeds the PID.
3F : When U/U cmd input is activated (+Vcc), the ma-chine voltage Vm is compared to the voltage given fromthe "MAINS I / O" card and the result (error voltage)feeds the PID.
A compensation external input, given for specific applica-tions is added to the error voltage and the resultantvoltage is the real PID input. Each branch (P, I, D) of thePID, independently adjustable from the others, set thetime constants of the AVR in regard to the generator.The integrator branch can be short-circuited, for examplewhen starting-up. These three outputs are added, limited to 10Vdc andthen give the field current set voltage of the "automaticchannel" which is the driver card input. The minimum value of this signal can be limitated toavoid total loss of excitation of the generator. In case ofparallel operation with the mains (cosØ/KVAR card), thislimitation is a function of the active power supply by thegenerator, this information is given by the COSØ / KVARcard.A separate stage detect if the generator voltage is belowan adjustable value to unlock the normal field ceiling vol-tage from 110% of nominal to 160% (adjustable).
2 - ADJUSTMENTS- P1 : Ceiling unlocked voltage threshold adjust (nor-mally 90% Un).- P2 : Proportionnal branch gain adjust (large signal)- P3 : Proportionnal branch gain adjust - P4 : Integrative branch time constant adjust- P5 : Derivative branch gain adjust- P6 : Derivative branch time constant adjust- P7 : Minimum field limitation adjust- P8 : Minimum field limitation, active power correctionadjust
3 - INPUTS / OUTPUTS- 11a : Voltage reference set point input. Vref- 13c : Added signal to voltage reference set point input(option)- 22c : Added signal to voltage reference set point input(external voltage option)- 21a : Added signal to voltage reference set point input(external potentiometer option) - 13a : Added signal to voltage reference set point input(differential droop option; with cosØ/KVAR card) - 19a : Integrator short-circuit command input- 10a : Mains image voltage input (3F) (with "MAINS I /O" card only)- 14c : CosØ error voltage input (2F) (with cosØ/KVARcard)- 25c : Voltage equalization command input (3F) (with"MAINS I / O" card only)- 24a : CosØ regulation command input (2F) (withcosØ/KVAR card)- 1a,1c : +15Vdc regulated (Vcc)- 32a,32c : -15Vdc regulated (Vdd)- 16a,17c : Common electronic ground- 14a : Minimum field limitation, active power correc-tion input- 15c : Field current voltage control output "AUTO"channel
19
PID, LIMITcard
AVRModel R630
NT1950060/a-11/92 f:1/3
20
PID, LIMITcard
AVRModel R630
NT1950060/a-11/92 f:2/3
PID &LIM Iexc
Vmmin
P
D
LIM Iexc min
I
P1
P3
P4
P5
P7LimitIexc min
FRONT VIEW
PID CARD
P
I
D
Vref
Vpot dig
CdeU
Pext
Vstat
++
++
-
∑+
-
staticrelay
CdeU/U
Vm
Vres
staticrelay
CdeCosØ
CosØ
∑+++
If min limit
IcosØAUTO output
∑
V Externe
Vm -10%
Vref
Vm
+
-
15c14a
11a
11c
9c
12c
24a
14c
11c
10a
21a
13a
22c
13c
11a
25c
Cct integ 19a
+
-
staticrelay
10V
MIMIC DIAGRAM PID, LIMIT CARD
21
PID, LIMITcard
AVRModel R630
NT1950060/a-11/92 f:3/3
P I D
P I DS
au
toC
I3
CI2
CI2
CI2
CI1
CI1
CI1
CI1
CI4
CI5
CI6
CI1
P.F
/K
VA
R
+ 15
V
0V
- 15
V
11a
13c
22c
21a
10a
25c
11c
12c
14c
24a
9c 11a
25a
19a
1c,1
a
16a,
17c
32c,
32a
15
c
Vcc
Vcc
Vdd
VL
A
Vcc
VL
Vdd
Vcc
VL
ST
1
R5
R1
R2
13
a
R3
R39
R40
R4
R6
R7
R8
2 8
45
1 3
76
R13
R11
R12
R31
R15
R42
P2
R16
R14
R19
D1 D2
P3
P4
C3
D4
D5
P5
C4
R20
P6
R32
R33
R34
R35
R36
R37
Z1
R38
C6
R25
R24
C7
C8
C9
C10
C5
R23
R22
D8
Vdd
2 8
45
1 3
76
Vdd
Vcc
VL
A
R17
R18
C2
5
24
1
37
6
P1 R21
D7
D6
R9
R10C1
D3
Vre
f
Pot
dig
Cm
d U
Po
t ex
t
U m
ain
s
Cm
d U
/U
Co
rr e
xt
Cm
d P
.F
-10%
Vre
f
Cct
Int
Fim
da
ram
pa
Vm
Dro
op
(Po
siti
ve =
des
exci
tati
on
)
R41
C11
8
D11
R43
D10
MN
2
Ico
sØ14
a
Vcc
D9
R30
R28
R29
P7
R27
P8
R26
9
10
8
Min
Ie
xc
R45
19c
MN
39 10
8
R46
L1
Lim
Iex
c m
in
MN
313 12
14
D10
Pri
nci
ple
dia
gra
mP
ID, l
imit
car
d
1 - FUNCTIONALThis card controls from "AUTO" and "MANU" voltagereference and some additional informations detailed inthe following, the exciter field current supply by the regu-lator and the booster (if used).
- Three operating mode are possible, depending of ex-ternal informations :
• Normal mode with 110% ceiling of If nominal. • Ceiling unlocked mode (160% minimum Ifield nomi-
nal) depending of the command input from the PID cardwith limited delay and alarm output in case of sustainedundervoltage.
• Maximum ceiling mode if the synchronisation voltagedesappears ( machine short-circuit) with limited (adjusta-ble) field current.
- The "AUTO" or "MANU" reference voltage depending ofthe associated command input and also of the activelimitations, is compared to the field current measurementand gives the error voltage which is after integration,compared to a sawtooth feed by the synchronisation vol-tage. The output of this stage is a variable duty cyclesignal which controls the power transistors throught iso-lating optocouplors.
- This card can be supplied in three manners :• From the general supply of the rack in normal opera-
tion• Throught an isolated supply taken from the field
voltage during start-up or generator short-circuit (Racksupply not present)
• Directly from the field voltage for power transistorcommand.
The permanent limitation (110% de Iexc nominal) canbe modified by the following conditions:- Field ceiling unlocking on machine undervoltage condi-tion. It inccreases from 110% (normal operation) to aminimum of 160% of the nominal field current during anadjustable time delay and then go back to 110%. Analarm is activated if this undervoltage is sustained after-ward.- Field ceiling unlocking on synchronisation voltage ab-cence. It increases to the maximum given by the sett-ingof P7.- Field ceiling limitation caused by power heatsink over-heating. On thermocontact action the ceiling is reducedto a value given by the setting of P8. A separate circuit monitors the instantaneous current ofthe power transistor and reduces immediatly the com-mand signal if its value increases above a fixed value.(Exciter or wiring short-circuit protection ).
2 - ADJUSTMENTS- P1 : Integrator time constant adjust.- P2 : Unlocked ceiling time delay adjust. (generally 5s)- P3 : Alarm time delay adjust after ceiling unlock.- P4 : Permanent ceiling value adjust (generally 1,1If no-minal)- P5 : HALL sensor range adjust.- P6 : Initial ramp-up adjust- P7 : Maximum field current adjust (machine short-circuit)- P8 : Maximum fieeld current in case of heatsink over-heating.
3 - INPUTS / OUTPUTSFlat cable (BUS 64points)- 15c : If reference set point input "AUTO" channel- 15a : If reference set point input "MANU" channel- 25a : "AUTO / MANU" command input (0V = "AUTO")- 9c : Unlocking ceiling command input - 4a, 4c : Synchronisation voltage input- 26c : Heatsink thermocontact input - 1a,1c : +15Vdc regulated (Vcc)- 32a,32c : -15Vdc regulated (Vdd)- 16a,17c : Common ground (GND or 0V)- 17a : Field current measure output- 19a : End of ramp-up output signal- 31a : Alarm output
Card connector (8 points)- 1 : Field voltage- 2 : Main transistor drain - 3 : Main transistor gate- 4 : Booster transistor gate- 5 : Power ground- 6 : +Vcc HALL sensor- 7 : -Vcc HALL sensor- 8 : HALL sensor measure output
22
Drivercard
AVRModel R630
NT1950070/b-11/93 f:1/3
23
Drivercard
AVRModel R630
NT1950070/b-11/93 f:2/3
DRIVER
Iexc max
Iexc lim
T Iexc lim
T ramp
Vm min
Ramp end
P7
P4
P6
P2
MIMIC DIAGRAM DRIVER CARD
FRONT VIEW
DRIVER CARD
15c
15a
Measure 0 - VDC
Alarm outpu
Unlock ceilininput
Supply +/-15Vdc
Auxiliairy isolated supply
PWM
GND
-+
Converter I/U
Ts Ramp
Limit 1
Lim max
-
+
short-circuitmonitoring
Static Relay
AUTO input
Ipl
Opto
supply
If limit valu
End of ramp
If set point outp
17a
25a
16c
9c
31a
18a
19a
Heatsinkthermocontac
PID
Synchronisatio
Synchro lossSynchro
1a1c
32a32c
16a17c
-Vdd +Vcc0V
4a,4c
-+
1
8
2
4
3
5
6
7-Vdd
+Vcc
+Vdc Power supply
HALL sensor
Transistor Drain
Booster transistor cmd
Principal transistor cmd
Power GND
HALL sensor supply
26c
18cLoss of synch
MANU input
Auto / Manu cm
Driver card8pts connector
24
Drivercard
AVRModel R630
NT1950070/b-11/93 f:3/3
C/C
1
Vcc
Vcc
Vdd
Vcc
Vcc
Vcc
Vcc
Vdd
ALA
RM
ELi
m I
F R
Vcc
Vcc
Vcc
Vdd
18V
18V
18V
18V
18V
-15V
+15V
0V
Vm
in
LED1
II
Vex
c
Sync
Vcc
I
A M
0 -10V
Cm
d
LED2
Tc
E-
+A
+E
-A
4a 4c
18c
15c
15a
25a
16c
9c
31a
18a
19a
26c
17a
78
65
321
32a
32c
16a
17c
1a 1c
4
Cm
dbo
oste
rC
hal
l
10 98
1814
12
2 31
6 57
5 42
9814
6 7
1
10 1113
10 98
13 1214
12 3
75 6
Q1
Q2
Q3
Q4
Q5
Q6
Q7
Q8
Q9
Q10
Q11
Max
iie
xc
Ram
pa
Lim
TC
Lim
Iexc
110%
Ts
T a
larm
e
Gam
ma
Iexc
2 384
1 7
65
2 3
8 6 5
7
52
41
CI 3
CI 3
CI 3
CI 3
CI 2 CI 2
CI 2
CI 2
CI 1
CI 1
CI 1
CI 1
OP
T1
CI 4
Vcc
Vcc
C13
C14
C15
C18
R10
D20
D21
D22
D3
D1
D2
D5
D4
D7
R60
P5
P8
P7
P6
P4
D9
P3
P2P1
R15
R16
R17
R18
R29
R28
R30
R51
R50
R49
R47
R48
R46
R52
R45
R40
R41
R42
R43
R44
R39
R37
D15
D16
D14
C7
C8
R36
D12
R38
Z2
R55
R56
R57
D13
Z3
R34
R33
R14
R32
R35
R12
R13
C2
C6
R31
C5
C3
C4
C9
D11
D10Z1
C12
C10
D18
R27
R24
R23
C11
R26D
8
R20
R21
R19
R22
R5
R6
R9
R4R3
R8
R11
R1
R2
C1
D17
OPT2
C16
Q13
OP
T3
Z5
R59 Q12
Z4
D24
D25
R58
D26 C17
R61
C20
R63
R62
R25
Zx Rxx
+V
ccQ
xx
Z6
19
c
Pri
nci
ple
dia
gra
mD
RIV
ER
car
d
1 - FUNCTIONALThis card elaborates from generator current and voltageinformations, the following signals:
- An image of the reactive current of the generatornamed (KVAR) used for KVAR regulation.
- An image of the phase shift between the voltage andthe current of the generator named (Ø) used for cosØ(PF) regulation.
- An image of the active current of the generator named(KW) used for compensate the minimum Ifield limit of thePID card.
- The principle of measurement is to sample and hold theinstantaneous value of the current when the instanta-neous voltage reaches zero on positive slope.
- First the current image of the stator current is filteredand used directly for KVAR measure. Then it is derivated and used for KW measure. And then it is amplified toobtain square waves and integrated to give a sawtoothused to Ø measure.
- The voltage image is phase-shifted to compensate thephase shift of the current input filter and after amplifica-tion is fed to a monostable which gives the pulse signal(about 100µs) used by all the sample and hold circuits.
- KVAR and Ø values are compared with an internal andexternal (if used) setting and the difference is send tothe PID card as an error signal. An external contactcontrol an analog switch to select what information bet-ween KVAR and Ø will be regulated.
- Three informations (Ø, ∆Ø, ∆KVAR) can be used as analternative droop for solo operation.
• Ø gives no droop at cosØ=1 and the voltage decreasesat lagging PF.
• ∆Ø gives no droop at the cosØ setting and the voltagedecreases at more lagging PF and opposite for more lea-ding PF.
• ∆KVAR gives no droop at the KVAR value setting andthe voltage decreases with more KVAR and increases ifless.
- The selection between these is made by mean of jum-
per (CAV) on the card (internal).2 - ADJUSTMENTS- P1 : KVAR internal setting.- P2 : PF (cosØ) internal setting.- P3 : Voltage phase shifter (internal)- P4 : PF (cosØ) gain setting - P5 : KVAR gain setting.- P6 : Différential droop setting- P7 : Pulse width setting (internal)
- Jumper CAV : Selection of droop type
No : Reactive droop adjusted by P1 (sensing card)CAV1 : No droop for cosØ=1 and droop if lagging.CAV2 : No droop for KVAR setting (P1), voltage decrea-ses if more KVAR (lagging) and opposite if less.CAV3 : No droop for PF setting (P2), voltage decreasesif more lagging and opposite if less or leading.
Nota : If the droop is used from this card, potentiometerP1 of the sensing card must be set to zero.
3 - INPUTS / OUTPUTSFlat cable (BUS 64points)- 8c : Generator voltage image input- 9a : Generator current image input- 20a : Command input "cosØ / KVAR" (0V = "cosØ")- 21c : External KVAR setting input- 20c : External cosØ setting input - 1a,1c : +15Vdc supply (Vcc)- 32a,32c : -15Vdc supply (Vdd)- 16a,17c : Common electronic ground- 14c : Error signal output to PID card- 13a : Droop signal output to sensing card- 14a : KW signal output to PID card- 12a : KVAR signal output - 10c : Ø signal output
25
Cos Ø - kVAROptional card
AVRModel R630
NT1950080/b-10/94 f:1/3
CT //
Phase shifte Monostable
Filter IsinØ
KVAR
Sampleand hold
Ø
Sampleand hold
d( )/dt ∫
Sampleand hold
KVAR
CosØ
KW
Ø
IcosØ
CosØ/KVARcmd
KVARGainKVAR
GainCOSØ
CAV1
3
2 Diff droop
Vac
14a
13a
9a
8c
20a
14c
-Vcc
+Vcc1c,1a
32c,32a
16a, 17c0V
externalKVAR setting
21c
20c
CosØ
10c
IsinØ
12a
externalcosØ setting
( ) dt
26
Cos Ø - kVAROptional card
AVRModel R630
NT1950080/b-10/94 f:2/3
COSØ, KVAR
Gain kvar
Statisme D
Gain cosØ
P5
P2
P4
P6
P1
KVAR
Cos Ø
MIMIC DIAGRAM COSØ - KVAR CARD
FRONT VIEW
COSØ - KVAR card
27
Cos Ø - kVAROptional card
AVRModel R630
NT1950080/b-10/94 f:3/3
R50
0V T
R1
0V
TI//
VU
W
MA
3
R14
-Vcc
+Vcc
9a
16a
17c
1c,1
a
32c,
32a 8c
0V
CR
03
CR
04
MA
4
R53
R52 P
03
C12
C11
R54
6
32
MA
5
R56
R55
C13
7 4
CR05
R58
R01
CR
01
CR
02C
deC
04
0V
MA
3
R19
R15
R12
P01
R13
+V
cc
-Vcc
Cd
e
MA
3
R33
MA
2
R26
Cd
eC09
MA
3
R34
R32
P02
R31
+V
cc
-Vcc
R37
MA
1
R21
R20
MA
2
R23
R22
R24
C05
C07
MA
2
R41
Cd
e
C10
MA
4R
40
R42
0V
C14
C15
P0
4
Ico
sØ
Err
eur
14
c
14a
R43R
35
R38S
tat
D
Uco
sØ
Ukv
ar
R18
R36
C08
R16
Isin
Ø
Ø
P0
6S
1
S2
R39
R17
C06
4
3 5 167
8
12
+V
cc
C16
R59
P07
R51
21
6
21
6
21
6
R28
MA
1
R02
R05
C02
R04R03
C01
R25
MA
2
R30
MA
1
R08R
07
R06
MA
1R11
R10
C03
R09
HR
Gai
n Ø
HR
HR
HR
KV
AR
CO
SØ
MA
6
20c
21c13
a
10c
12a
MA
7
TP
1
TP
2T
P4
TP
3
TP
5
TP
7
TP
8
TP
9
TP
10
TP
6
1M
A8
26
8
20
a
P0
5
HR G
ain
K
R38
0V
C26
to
30
R27
R29
CA
V1-
3
C24
MA
9
MA
10
C20
-21
C17
C25
+V
cc
3
R57
R46
R44
T1
C31
CR
10
R47
pri
nci
ple
dia
gra
mC
OS
Ø -
KV
AR
car
d
1 - FONCTIONNAL- This unit is mainly an interface between external signalsand low power electronics.
- It is composed by :• The adaptation three phases transformer between
input voltage and measurement circuits.• The AC/DC converter to give an image voltage of the
mains voltage. • The interface input relays between command / control
terminals and internal circuits.• The interface between 64pts BUS and the analogic
input / output terminals.2 - ADJUSTMENTS- P01 : Ur setting for mains nominal voltage. (10Vdc fornominal value)
3 - INPUT / OUTPUTSee following table.
28
Optional mainsI / O
AVRModel R630
NT1950020/b-10/94 f:1/3
INPUT Connector Type Interface Connector ConnectorTERMINAL 32 PTS I / O 26 PTS BUS 64 PTS
12 15c sensing 3Ø transformer TP4 13 5a13 13c sensing 3Ø transformer TP4 17 6c14 11c sensing 3Ø transformer TP4 21 6a
51 1a signal direct 3 15a52 3a signal direct 5 27c54 2a spare 7 27a55 4a spare 2 28c56 5a spare 4 28a57 6a spare 6 29c58 7a spare 8 29a59 8a spare 10 30c60 9a spare 12 30a
36 4c cmd input relay 1 25c2c cmd input relay 9 1c
53 3c cmd input relay 14 20a2c cmd input relay 9 1c
10c GND direct 25 16a, 17c9c thermocontact direct 26 26c
29
Optional mainsI / O
AVRModel R630
NT1950020/b-10/94 f:2/3
U mains
V mains
W mains
5a
6c
6a
10a
16a, 17c
ACDC
Cmd U/U
25c+12Vdc U/U
To 32pts J1generator I/O
2c
+Vcc 1c
-Vcc 32a
R10
R11
R01
7MA1/2
R07
CR2
11
4
1MA1/1
CR1
3
2
5
6
14MA1/4
R08
CR4
8MA1/3
CR3
10
9
12
13R04
R06
R05
R12
7MA2/2
R09
CR6
1MA2/1
CR5
0V
3
2
5
6
11
4
R02
R03
0V
0V
CR9
0V
CR10
CR13
CR14
CR11
CR12
VU W
MA2/4
R17
R18
C05
0V
R16 C02
MA2/3
R14
R13
C01
Ur
-Vcc
+Vcc
16a
17c
1c,1a
32c,32a
10a
0V
10
98
14
12
13
+Vcc
L1
R20CR8
R19
Q01
R21
P01
R15
R22
R23
R24
R25
15c
11c
7c
4c
2c19
25
21
17
13
Connector maleDIN41612 32Pts
Connector HE10 26Pts
26c26
25Thermostat
Thermostat9c10c
Connector 41612 64Pts
27c53Cmd Ifield
Pot MANU 3a1a 15a
27a72a
5152
54
12
13
14
35 36Terminal Bl
16a
28aReserve28c
Reserve
555657
Reserve5960
Reserve5830c29a
30a
29c
Reserve
Reserve
5a4a
6a
8a7a
9a
P.F / Kvar
20a
3c48 53
Terminal Bl
Reserve
42
6
108
12
14
31c
5c
11
K2
K1
K3
CR16
CR15
CR17
R27
R26
R31
L1 L2 L3
TP4
JUM
PE
RS
PT4
PT5
PT6
PT1
PT2
PT3
PT7
5a 6c 6a
Reserve
TerminalN°
TP4
TerminalN°
PRINCIPLE DIAGRAM
MAINS I/O AC/DC
30
Optional mainsI / O
AVRModel R630
NT1950020/b-10/94 f:3/3
10TE
TP4
Connectrelais LED
Connect
LED
P01
PT1
PT2
PT3
PT4
PT6
PT5
PT7 CosØ / Kvar
Reseau
RESEAU E/S
MAINS I/O
P01
relais LED
relais LED
S1
U/U
FRONT VIEW
MAINS I / O
INTERNAL VIEW
MAINS I / O
1 - FUNCTIONALThis card replace two conventional motorized potentio-meters :
• One for the remote voltage setting.• One for power factor or reactive current setting.
- Switch between the two modes is made by the externalP.F regulation order (terminals 33, 34) and switch bet-ween P.F and KVAR setting is made by the external or-der (terminals 48,53)
- Each last position is memorized when the control isswitched or when the machine is stopped.
- Jumps (SW1 and SW2) allow the choice betweenunipolar or bipolar voltage output and the range is adjustedby means of potentiometers P02 and P03.
- Jumps SW3 and SW4 must be open for normal opera-tion and are only used for special applications.
- Speed of all adjustments is controled by potentiometerP01.
- Two LED's (L1,L2) indicate the command orders + or -and four other LED's (L3,L4 and L5,L6) indicates themaximum and minimum position of voltage and P.Fsettings
NOTE : When this card fitted, the internal voltagesetting (P05 on sensing card) must be used to givethe center position of the range (if bipolar range) orthe minimum setting in case of unipolar range (idemfor P.F and Kvar internal setting on P.F card). Anexternal setting potentiometer must not be used, thesettings are made only by mean of push-buttons onterminals 42, 43, 44.
2 - ADJUSTMENTS- P1 : Clock speed (total range time) - P2 : Voltage range value- P3 : P.F or KVAR range value- SW1: Voltage range polarity (0/+ or +/-)- SW2: P.F or KVAR range polarity (0/+ or +/-)
3 - INPUTS / OUTPUTSFlat cable (BUS 64 points)- 24c : Cmd lower - 23a : Cmd upper- 16c : If reference set point input - 15c : If reference set point input "AUTO" channel- 24a : External P.F regulation order- 20a : External P.F or KVAR regulation order- 13c : Voltage setting output to PID card - 20c,21c : P.F or KVAR setting output to P.F card - 30a : Maximum position of settings- 1a,1c : +15Vdc regulated (Vcc)- 32a,32c : -15Vdc regulated (Vdd)- 16a,17c : Common ground (GND or 0V)
31
Digital pot U / P.FOptional card
AVRModel R610 / R630
NT1950110/a-01/94 f:1/3
32
Digital pot U / P.FOptional card
AVRModel R610 / R630
NT1950110/a-01/94 f:2/3
DIGITALSETTINGS
UP
DOWN
SPEED
P1
MAX
MIN
BAS
HAUT
Voltage
MAX
MIN
CosØ - Kvar
FRONT VIEW
Digital pot U / P.F
Cmd +
-
23a
LogicDigitalpot U
Max
P01Speed
P.F / Kvar range
Cmd - 24c
UP
DOWN
Clock
staticrelay
Digitalpot P.F / KVAR
Cmd P.F 24a
U / D
U / D
INC
CS
INC
CS
Max Pos30a
Min
Max
Min
0V
-Vref
SW1
SW2
+
U range
staticrelay
20a21c
20cP.F Output
Kvar Output
Kvar Cmd
Digital pot U / P.F CARD MIMIC DIAGRAM
33
Digital pot U / P.FOptional card
AVRModel R610 / R630
NT1950110/a-01/94 f:3/3
+V
cc1c
,1a
32c,
32a
-Vcc
0V
+5V
+Vcc
7805
Cd
e -
24
c
23a
Cd
e +
AN
D
AN
D
AN
D
AN
DS
2S1
AN
DS
4A
ND
AN
D
U/D
0V
0VS
auto
Cd
e Ie
xc
+V
ccH
AU
T /
HIG
HT
BA
S /
DO
WN
+V
cc
Vre
f
+5
V
+5
V
AN
DA
ND
+V
cc
INC
U/D CS
2 7 14
+5V8
3 5 6
S4
-Vcc
-Vcc
15c
16c
Cd
e Ie
xc
Sau
to15
c
16c
11a
AN
D
13
cP
ot
Ten
sio
n
+/-
0/+
20
cU
cosØ
20
aC
osØ
/ k
var
INC
U/D CS
2 7 14
8
3 5 6 21
cU
kvar
1
2
67
3
4-V
cc+V
cc
8 5
0V
1
2
67
34
-Vcc
+Vcc
8 5
24a
Cd
e co
sØ
0V
3 -
P2
6 -
P2
5 -
P2
3 -
P1
6 -
P1
5 -
P1
30
aco
sØ
kva
r
Vol
tage
0V
-Vcc
+V
cc
HR
0/+
+/-
R10
C1
R26
R16
R22
R17
R23
R18
R14
R15
R12
R13
R19
R24
R20
R25
R21
R31
R32
CR
06
P01
C08
R33
PO
T1
VO
LT
PO
T2
CO
SØ
R30
R1
R3
R11
R4
R9R8 C
2
R5
R6
T1
CR
1
T2
CR
2
L1 L2
RE
G1
C3
R7
CR
3
R34
R35
R36
CR
4C
R5
R2
MN
2M
N2
MN
1
MN
1
MN
6
MN
6M
N7
MN
7M
N8
SW
1
SW
3S
W4
R29
C7
MN
9
R27
R28
SW
2
R37 R
38
R39
R41
MA
X
MIN
po
t en
d
CR
8
CR
10
CR
11
L5
L6
R44
R47
R45
MA
X
MIN
CR
8
CR
7
CR
9
L3
L4
R42
R46
R43
R40
MN
3
MN
3
R48
R50
Ran
ge+
/-5V
à +
/-10
VP
02
R49
R51
P03
R53
R54
R52
MN
1
MN
4
MN
10
MN
10
Ran
ge+
/-5V
à +
/-10
V
MN
2
MN
2
Pri
nci
ple
dia
gra
mD
igit
al p
ot
U /
P.F
/ K
VA
R
1 - FUNCTIONALThis card elaborates from internal setting (PO2) andexternal setting informations, the Ifield command signalgiven to "MANU" channel of the driver card.
- The Ifield output signal is limited or reduced if the gene-rator voltage exceeds the limitation value sets by thepotentiometer P01 (trip of the main breaker on load forexample).
- This case of operation is indicated by the LED "LIMIT"and the Ifield setting must be decreased to a point undercontrol.
- On MANU operation, the difference between MANUoutput and AUTO channel output gives a compensationsignal which is used to compensate the PID to havealways the MANU and AUTO channels outputs identical.With this circuit a smooth switching between MANU toAUTO is possible and operation will go back to theAUTO channel own settings.
- The ceiling can be unlocked on this operation, that iswhy it can be necessary to wait some seconds after theswitching to return on MANU operation.
- On AUTO operation, these two channels are also moni-tored and the difference is indicated by three LEDs.
• HIGH says that MANU channel is higher than AUTO• LOW says that MANU channel is lower than AUTO• OK says that MANU and AUTO channels are identical and smooth AUTO ---> MANU switching is possible.
NOTE : If a Ifield digital potentiometer is used, theinternal setting (P02) must be set to 0 or under theno load field value and an external setting potentio-meter must not be used. In that case the setting ismade only by mean of push-buttons on terminals 44,45, 46.
2 - ADJUSTMENTS- P1 : Voltage limitation setting- P2 : Internal Ifield value setting- P3 : PID compensation gain setting- P4 : Internal compensation setting
3 - INPUTS / OUTPUTSFlat cable (BUS 64points)- 4c : 24Vac input image of the generator from "generator I/O" card- 25a : "AUTO / MANU" command input (0V = "AUTO")- 16c : If reference set point input - 15c : If reference set point input "AUTO" channel- 27c : External Ifield setting input - 1a,1c : +15Vdc regulated (Vcc)- 32a,32c : -15Vdc regulated (Vdd)- 16a,17c : Common ground (GND or 0V)- 15a : If set point output "MANU" channel- 12c : PID compensation output- 9c : Ceiling locked output
34
Manual mode 1Optional card
AVRModel R630
NT1950100/b-10/94 f:1/3
35
Manual mode 1Optional card
AVRModel R630
NT1950100/b-10/94 f:2/3
MANUALMODE
Iexc
Seuil
LIMIT
HIGH
P3
P2
Gain
P1
LOW
OK
BAS
HAUT
FRONT VIEW
Manual mode
24Vac
+
-
S auto
Cmdauto/manu
+
-
15c
16c
25a
4c
Ceilinglocked
9c
relaisstatique
AC / DC Filter +
-PI ampli f
Limitation
S manu
External If Control
15a
27c
Ifieldsetting
Voltagelimitation
+
-
If setting too high
+
-
If setting too low
+
-If setting OKET
S manu
PIDCorrect
12c
S auto
Ifield Cmd
ET
Gain
-Vcc
+Vcc1c,1a
32c,32a
16a, 17c0V
MANUAL MODE 1 CARD MIMIC DIAGRAM
36
Manual mode 1Optional card
AVRModel R630
NT1950100/b-10/94 f:3/3
R40
14
1213
MA
2/4
R42
CR
11
R50
8
109
MA
2/3
11
4
R52
+V
cc
Sau
to
Sm
anu
Sm
anu
Sau
to
R35
7
56
MA
2/2
R37
Sau
to
Cd
e Ie
xc
81
6
inh
ibit
ion
déb
loca
ge
pla
fon
d
Co
rrec
tio
nIn
teg
rale
du
PID
+ =
dés
exci
té
Cd
eau
to /
man
u
15
c
16c
12c25
a
9c
0V
-Vcc
+Vcc
1c,1
a
32c,
32a
R01
7M
A1
/2
R04
CR
04
1M
A1
/1
CR
03
32 56R
02C
R02
CR
01
R03
4c
24V
ac
MA
1/4
R08
R09
C01
R07
C02
R06
R11
MA
1/3
C03
P0
1
R05
R14
MA
2/1
P0
2
R12
R18
-Vcc
+Vcc
15a
Sm
anu
16a,
17c
0VR
10R
17
R36
R38
P03
R51
R53
R54
R41
R43
R44
R34
R32
R46
R47
R56
R57
R60
R61R
62
CR
10
CR
21C
R20
CR
13
CR
23C
R30
T01
T02
T03
T04
CR
31
CR
12
CR
08R
21
R23
T05
R55
R45
R31
R33
CR
06 R16
27
c
Cd
e U
R30
R13
R15
R19
R20
CR
07
1K
CR
05
43
7
-Vcc
+Vcc
MA
3/1
R25
R26
R24
-Vcc
P04
R27
HR
HR
HR
LIM
ITH
AU
T
BA
SO
K
R29
MA
3/1
R39
R28
CR
09
R22
14
1213
MA
3
Pri
nci
ple
dia
gra
mM
anu
al m
od
e 1
card
1 - FUNCTIONALThis card replace one conventional motorized potentio-meter in "MANU" mode and sets the "MANU" channeloutput always equal to the "AUTO" one to allow thesmooth switching between the "AUTO" and "MANU" ope-ration at any load (follower in "AUTO" mode).
- Switch between the two modes is made by the external"AUTO / MANU" order (terminals 47,48)
- Jumps SW1 allows the choice between voltage outputtaken from U/F control of the sensing card or from a 5Vfixed reference and the range is adjusted by means ofpotentiometer P03.
- Jumps SW3 and SW4 must be open for normal opera-tion and closed for follower operation.
- Speed of the adjustment is controled by potentiometerP01 in manual setting and by P02 in follower operation.P02 acts as a delay between an "AUTO" output variationand the "MANU" output response.
- Two LED's (L1,L2) indicate the command orders + or -and two other LED's (L3,L4) indicates the maximum andminimum position of Ifield settings
NOTE : When this card is fitted, the internal Ifieldsetting (P02 of manual mode card) must be set to 0or under the no load field value and an externalsetting potentiometer must not be used. The Ifieldsetting is made only by mean of push-buttons onterminals 44, 45, 46.
2) ADJUSTMENTS- P1 : Clock speed (Time delay in follower mode) - P2 : Clock speed (range time in "MANU" mode)- P3 : Ifield range value- SW1 : Voltage range fixed or U/F monitored - SW3/4 : Normal (open) or follower (closed) operation
3 - INPUTS / OUTPUTSFlat cable (BUS 64points)- 23c : Cmd lower - 22a : Cmd upper- 25a : Cmd "AUTO / MANU"- 11a : U/F voltage reference- 16c : If reference set point input - 15a : If reference set point input "MANU" channel- 27c : Ifield setting output to Manual mode card - 30a : Maximum position of settings- 1a,1c : +15Vdc regulated (Vcc)- 32a,32c : -15Vdc regulated (Vdd)- 16a,17c : Common ground (GND or 0V)
37
Digital pot IfieldOptional card
AVRModel R630
NT1950115/a-01/94 f:1/3
38
Digital pot IfieldOptional card
AVRModel R630
NT1950115/a-01/94 f:2/3
Iexc DIGITALSETTING
UP
DOWN
SPEED
P1
MAX
MIN
BAS
HAUT
IexcFRONT VIEW
Digital pot Ifield
Cmd I+ 22a
LogicDigitalpot 2
P01 Follower Speed
Cmd I- 23c
UP
DOWN
Clock
staticrelay Digital
pot 1
Cmd Auto/Manu
25a
U / D
U / D
INC
CS
INC
CS
Max Pos30a
Max
Min
+5VVref SW1
+
Iexc range
27c
Iexc set Output
Out
In
In
Out
P02 Manu Speed
+
+
-
-15a
16cSmanu
Cmd Ifield
SW4 SW3
Ifield digital pot CARD MIMIC DIAGRAM
39
Digital pot IfieldOptional card
AVRModel R630
NT1950115/a-01/94 f:3/3
+V
cc1c
,1a
32c,
32a
-Vcc
0V
+5V
+Vcc
7805
- I
23
c
22a
+I
AN
D
AN
D
AN
D
AN
DS
2
S1
AN
DS
4R
26
AN
DA
ND
U/D
0V
0VR
16
R22
Sm
anu
Cd
e Ie
xcR
17R
23R
18
+V
cc
HIG
HT
HA
UT
DO
WN
BA
S+
Vcc
Vre
f
+5
V
+5
VR
14
R15
R12
R13
AN
DA
ND
+V
cc
INC
U/D CS
2 7 14
+5V
835
6
S4
-Vcc
-Vcc
15a
16c
R19
R24
Cd
e Ie
xc
Sm
anu
R20
R25
R21
15a
16c
11a
AN
D
27
cP
ot
Man
u
R49
R51
Ran
ge+
/-5V
à +
/-10
V
INC
U/D CS
2 7 1
48 35
6
0V
R31
R32
CR
06
P01
C08
R48
R33
3 -
P2
R40
PO
T1
PO
T2
6 -
P2
5 -
P2
30c
MA
X
MIN
po
t en
d
0V
-Vcc
HR
0V
+5
V
0V
+5
V
0V
R30
25a
Cd
e A
/M
12
6
7
34
-Vcc
+Vcc
+V
cc
8
HR
P2
P03
5
R1
R3
R10
R11
R4
R9R8
C1
C2
R5
R6
T1
CR
1
T2
CR
2
L1 L2
RE
G1
C7
C3
R7
CR
3
R34
R35
R36
R1
CR
8
CR
7
CR
9
L3
L4
R42
R46
R43
CR
4C
R5
R2
R52
MN
2
MN
2
MN
2M
N2
MN
9M
N1
MN
1
MN
6
MN
6M
N7
MN
7M
N8
SW
1
SW
3S
W4
Pri
nci
ple
dia
gra
mIf
ield
dig
ital
po
ten
tio
met
er
1 - DESCRIPTIONThis card is used when the P.F or KVAR regulation iswanted not at the generator terminals but at the mainsinput. For this a P.F or KVAR sensor with 4-20mA outputis necessary and it must be located at the place wherethe regulation must be made.
2 - FONCTIONALThis card elaborates from setting informations and 4-20mA signal image of P.F (or KVAR) of the mains, theerrorvoltage dending to the PID of the PID card.
- The error signal have an ajustable gain and can be in-versed depending of the 4-20mA sensor output.
- This kind of operation is indicated by the LED "L3" andby a contact (potential free) on the front connector.
- This operation is selected by mean of a contact on frontconnectort and will be active on coupling when contactbetween terminals 33, 34 of main terminals will be closed.If the contact on front connector remains open, the regu-lation (P.For KVAR) will be made at the generator output,if it is closed, this is the 4-20mA information wich is regu-late function of the internal settings (P2 or channel 2 4-20mA) or/and external by the front connector.
- If during operation, the measuring 4-20mA signaldeseappears, control is automatically return to regulationon the generator output side and this failure is indicatedby LED L1 ou L2 and by a contact on front connector.
- A second channel can be used as set point of the firstchannel or as a remote adjustment of voltage, P.F orKVAR on generator side. As on channel 1 if the 4-20mAdeseappears, output is inhibited and indicated by LEDL2.
- A field current limitation is given, active when a contact(front connector) is closed and indicated by LED L4. Thelimitatio is adjusted by P7 (Limit 2 set) and can be setbetween a maximum value preset by P7 on driver cardand a minimum value preset by P8 on driver card.
- An signaling contact on the front connector gives (ifthey are used) the indication that one or more of the digi-tal potentiometers are at maximum position .
3 - ADJUSTMENTSPotentiometers- P1 : Channel 1 range adjustment- P2 : Reference set point channel 1- P3 : Gain channel 1- P4 : Channel 2 range adjustment- P5 : Reference set point channel 2- P6 : Gain channel 2- P7 : Limit 2l adjustment
Jumpers - CV1 A: Channel 1 used- CV1 B : Channel 1 not used- CV2 A : Channel 1 used- CV2 B : Channel 2 not used- CV3 A : Non inverting error channel 1- CV3 B : Inverting error channel 1- CV4 A : Non inverting error channel 2- CV4 B : Inverting error channel 2- CV5 A : Channel 1 in 4-20mA regulation channel 1- CV5 B : Channel 1 in voltage setting- CV5 C : Channel 1 in generator P.F setting- CV5 D : Channel 1 in generator KVAR setting- CV6 A : Channel 2 in 4-20mA regulation channel 2- CV6 B : Channel 2 in voltage setting- CV6 C : Channel 2 in generator P.F setting- CV6 D : Channel 2 in generator KVAR setting- CV6 E : Channel 2 in channel 1 setting
4 - INPUTS / OUTPUTSFlat cable (BUS 64points)- 12c : Error output to PID - 21a : Output to voltage setting- 20c : Output to generator P.F setting- 21c : Output to generator KVAR setting- 30a, c : Digital pot at maximum position- 1a,1c : Supply +15Vdc regulated (Vcc)- 32a,32c : Supply -15Vdc regulated (Vdd)- 16a,17c : Common ground- 23a : Cmd + U or + P.F- 24c : Cmd - U or - P.F- 14c : Output of generator side P.F card- 24a : P.F regulation order- 26c : Limitation 2 output to driver card
Front connector (DB25 points)- 13 : + 4-20mA input channel 1 - 25 : 4-20mA output channel 1- 20 : 12V to external setting potentiometer ch 1- 12 : External setting potentiometer cursor ch 1- 24 : Ground to external setting potentiometer - 11 : + 4-20mA input channel 2- 23 : 4-20mA output channel 2- 20 : 12V to external setting potentiometer (ch 2)- 10 : External setting potentiometer cursor ch 2- 22 : Ground to external setting potentiomete- 9 : 4-20mA failure (NO) - 21 : 4-20mA failure (NF)- 8 : 4-20mA failure (Commun)- 3 : Digital pot at max position (NO) - 15 : Digital pot at max position (NF)- 2 : Digital pot at max position (Common)- 7,19 : Contact regulation ch 1 active (mains P.F)- 14,1 : Contact limitation 2 active
LED- L1, L2 : 4-20mA failure channel 1 or 2- L3 : Channel 1 active- L4 : Ifield limitation 2 active
40
Mains P.F RegulationOptional card
AVRModel R610 / R630
NT1950120/a-04/94 f:1/3
41
Mains P.F RegulationOptional card
AVRModel R610 / R630
NT1950120/a-04/94 f:2/3
aux I / O
Ref 2set
MainP.Fset
MAIN P.F ON
P2
P5
P7Limit
2set
1
2Limit 2
ON
4-20mA
114
1325
OFF
FRONT VIEW
MAINS P.F REG
Chan 14 -20mA
+
-
4 - 20mAfailure
4 -20mA/ 0-10V
10HzFilter
Corr PID
External setting 1
12c
Int setting channel 1
Closed : regmains P.F
-Vcc
+Vcc1c,1a
32c,32a
16a, 17c0V
21a
20c
21c
Ref U
Ref P.F
Ref Kvar
+
- Ref U
Ref P.F
Ref Kvar
Chan 24 -20mA
4 -20mA/ 0-10V
Adapt 30a
Gain
Gain
24a
23a
24c
Open : reggenerator P.F
14c
Pot ext Ref 1
Pot extRef 2
K1
K2K5
K1
K5
MA9Corr PID 12c
21a
20c
21c
4 - 20mAfailure
K1
K2
CV3
FR
ON
T C
ON
NE
CT
OR
I /
O
RE
AR
FL
AT
CA
BL
E I
/ O
+Vcc
26c
LimitationIfield 2
0V
R
R
0V
30c
Ifield Limit 2
Pot digat max
position
-
CV4
-
CV5
CV6
ABCD
ABCDE
AB
AB
CV1
ACV2
A
13
25
12
11
23
10
21
9
8
15
3
2
7
1
19
14
24
22
0V
0V
20 +12V
20+12V
ConnectorDB 25 points
L1
L2
L3
L4
Connector64 points
10HzFilter
External setting 2
Int setting channel 2
MAINS P.F REGULATION CARD MIMIC DIAGRAM
42
Mains P.F RegulationOptional card
AVRModel R610 / R630
NT1950120/a-04/94 f:3/3
Pri
nci
ple
dia
gra
mm
ain
s P
.F r
eg c
ard
-Vcc
+Vcc
1c,1
a
32c,
32a
16a,
17c
30
a
24
a
23
a
24
c
14
c
K1
K5
K1
K2
+V
cc
26
c
12
c
21
a
20
c
21
c
K5
R26
MA
7
R08
R10
C08
R09R32
C07
MA
7
R19
P0
3R
12
MA
7
R17
R18
R16
R15
CV
3
R25
0V
0V
12
c
21
a
20
c
21
c
MA
9
R52
MA
8
R44
R43
C15
R45R71
C14
MA
8
R37
P0
6R
33
MA
8
R35
R38
R34
21
6
R39
R31
P0
5R
41
+V
cc
R36
0V
0V
P7
R68
R58
R57
+Vcc
0V
R51 0V
R61
30
c
R62
R64
+12V
R55
R56
R54
R53
CR
09C
R11
CR
10C
R12
CR
13
hr
hr
4 5
7
-Vcc
+Vcc
3
R63
R69
0V
+V
cc
C18
0V
R65
-Vcc
R66
R67
K51
R59
R60
R14
P0
2R
11+
Vc
c
hr
R13
R24
+V
cc
CR
5
CR
6
L2 L1
CR
16
L4
R70
L3
Q1
Q5
Q2
Q3
Q4
13 25 2 11 23 1024 24 21 9 8 15 3 2 20 197 14 1
CV2A
CV1A
A BC
V5
A B C D CV
6A B C D
CV
4
A B
E
Ch
ann
el 1
4 -2
0mA
4 -
20m
Afa
ilure
Po
t d
igat
max
po
siti
on
Reg
P.F
g
eno
rm
ain
s
0 -
10V
Ref
1
0 -
10V
Ref
2
Front connector I / O
Rear flat cable I / O
Co
nve
rter
4 -2
0mA
/ 2-1
2VC
orr
PID
Ref
U
Ref
P.F
Ref
Kva
r
Co
rr P
ID
Ref
U
Ref
P.F
Ref
Kva
r
Lim
itat
ion
Ifie
ld 2
ad
j
LE
D
Fai
lure
4 -
20m
A
Co
nve
rter
4 -2
0mA
/ 2-1
2V
CR
7,8,
14,1
5 : R
elay
s fr
ee w
heel
ing
diod
es
Lim
it 2
acti
ve
Ch
ann
el 2
4 -2
0mA
1 - FUNCTIONAL- A voltage, image of the stator current of the machine,fed from the "ALTERNATOR I / O" card is rectified, filteredand compared to a reference voltage. The error signal gi-ves a voltage correction which is added to the main PIDinput to maintain the stator current equal to the adjus-ted value.
- The reference voltage is applied with an initial rampajustable from 0,5 to about 4s.
- A front LED signals stator current limitation operation.
- When this card is used for soft-start operation, the AVRpower transformer must be fed from a separate sourceduring the start operation and can be switched on the ge-nerator output when the voltage have reached the no-minal value. The switching must be as fast as possible(by relay, not by manual switch).
2 - REGLAGES- P1 : Stator current limit adjust. (about 2In to 4In )- P2 : Ramp-up time adjust. (0,5 à 4s environ)- P3 : Output signal gain
3 - INPUTS /OUTPUTS- 9a : Stator current image input (1Vac for In)- 1a,1c : +15Vdc regulated (Vcc)- 32a,32c : -15Vdc regulated (Vdd)- 16a,17c : Common ground (GND or 0V)- 12c : Voltage correction output to PID.
43
LIMIT IstatorOptional card
AVRModel R610 / R630
NT1950090/a-11/92 f:1/2
AC / DCTI //
T
Limitation
Filter9a
32c,32a
1c,1a
16a,17c
-Vdd
+Vcc
0V
12c
LED
RAMPAmpli PI
+
-
Seuil Istator
GAIN
MIMIC DIAGRAM Istator limit card
44
LIMIT IstatorOptional card
AVRModel R610 / R630
NT1950090/a-11/92 f:2/2
FRONT VIEW
Lim Istator card
0V
MA1/4
R11
R12
C02
0V
R10 C03
14
12
13
+Vcc
L1
R27
Q01
R23
R07
P01
R08
R14
R09
R01
MA1/2
R06
CR4
MA1/1
CR311
4
1
3
2
7
5
6
CR01
0V
CR02
0V
-Vcc
+Vcc
16a
17c
1a,1c
32a,32c
R05
9a
12c
R18
MA2/2
R19
R20
C06
P03
R21
R17
C05
R22 MA2/3
R25
R24
10
98
R26CR05
CR06
CR08
(Positif = desexcitation)
CR07MA2/1
R15
C04
P02
R13
-Vcc
R02
MA1/3
R04
R03
C01
10
98
R1611
4
1
3
2
7
5
6
LIMITI STATOR
P1
P2
P3
LIMIT
SEUIL
Ramp
GAIN
1 - STARTING WITH MANUAL MODE CARD- For initial start-up, the best is to use the manual modefor testing the sensing wires between the generator andthe AVR.
- For this it is necessary to have a manual mode cardplugged in the AVR. If not, see directly §2.
- Short-circuit terminals 47and 48 (AVR terminal block).
- Set the potentiometer P2 on manual card maximumCCW, start the prime mover up to the nominal speed.
- Turn slowly the potentiometer CW to obtain the nominalvoltage.
- Check the presence and the value of the three phasesat the AVR terminal block (terminals 1, 2, 3).
- Set the voltage to 5% above the nominal voltage.
- Check that the voltage between terminal 25 and 26 ofthe AVR terminal block is about one volt.
- If yes, remove the strap between terminals 47 and 48 ofAVR terminal block.
- The voltage must reach the nominal value.
- Go to §3
2 - STARTING WITHOUT MANUAL MODECARD- Start the prime mover up to the nominal speed..
- If the voltage does not appear, check wires betweenAVR and the generator field (terminals 5 and 6 of AVR),and the also the wires between AVR and power transfor-mer (terminals 18 and 19 of AVR). Check also the fuseinside the terminal 19 of AVR terminal block.
- If the voltage is too hight, check that the auxiliary vol-tage at the terminals 16 and 17 of AVR and the sensingvoltages at the terminals 1, 2, 3 of the AVR terminalblock are present.
- Adjust the nominal voltage with Vref (P5) of the sensingcard for the middle position of the external voltage poten-tiometer (if used).
3 - DE-ENERGIZING (optional)- External contacts E01 and E02 must be used.
- E01 must be serie with terminal 19 of AVR (powerinput) and is opened for de-energizing.
- E02 must short-circuit the booster output (if used)(terminals 7 and 8 of AVR) and is closed for de-energizing.
4 - ADJUSTMENTS- Refer also to card descriptions.
- The AVR is normally preset in factory.
- The nominal voltage can be set by Vref (P5) on sensingcard. Fine adjustment can be made by an external vol-tage potentiometer (10KΩ), (terminals 21,22,23)
- If an adjustment must be moved, note carefully the ori-ginal setting for resetting in case of problems.
- If the strap V/Hz of sensing card is on kV/Hz position,the original setting is V/Hz and can be changed betweenV/Hz and 2V/Hz by potentiometer P4.
-The stability is adjusted with the machine in factory. Ifnecessary, the response time can be changed by thesetting of potentiometer P4 of PID card.
- Other settings are difficult to adjust without specificelectronics equipments. It is better to not change them.
5 - FIELD FLASHING- Generally, field flashing is not necessary, but in somecases like long stop time or fault trip, it can be possiblethat the voltage does not appear naturally. In this case, connect a 12Vdc to 24Vdc voltage source tothe terminals 4 and 8 of AVR terminal block, + to 4 for ashort time and remove it when the voltage increases.
6 - PARALLEL OPERATION (1F)- The generator voltages must be as equal as possible.
- Same for the droop. If it is not possible to measure it,set the potentiometers P1 of the sensing cards all in thesame position (middle set for example). If the droop setting is made from cosØ/KVAR card (whenused), see notice NT 1950080.
- The reactive currents (KVAR) must be shared, imme-diatly after coupling, even the KW are not shared.
- If, immediatly after coupling, the current increasesabnormally, check if the parallel CT wires are not reversed(9 et 10 of AVR terminal block).
- If the coupling is OK but if when the load increases, thecosØ or the current have an abnormal value, check thatthe sensing phases at the input of the AVR are rightconnected. (U, V, W respectively to the terminals 1, 2, 3if clockwise rotation or W, V, U, if counter clockwiserotation).
45
Start-upR630
AVRModel R630
NT1959000/a-11/92 f:1/2
CAUTIONNever energize the AVR when
the driver card is removed.An overvoltage can appear and the power
transistor can be damaged.
7 - PARALLEL WITH THE MAINS (2F)- The generator and mains voltages must be as equal aspossible. (see §8 if MAIN I/O card is used). The contactbetween terminals 33, 34 of AVR terminal block mustbe closed at the same time as the coupling and willremain closed as long as the generator is connected tothe mains. It will be open when parallel between generators.
- If, immediatly after coupling, the current increases ab-normally, check if the parallel CT wires are not reversed(9 et 10 of AVR terminal block).
- If the coupling is OK but if when the load increases, thecosØ or the current have an abnormal value, check thatthe sensing phases at the input of the AVR are rightconnected. (U, V, W respectively to the terminals 1, 2, 3if clockwise rotation or W, V, U, if counter clockwiserotation).
- The PF value is normally factory set to 0.8. It can beadjust by mean of potentiometer P2 on cosØ/KVAR cardor by mean of an external potentiometer (10KΩ-1W)connected to AVR terminal block (27,28,29).
- If the KVAR regulation is required terminals 48 and 53must be short-circuited and the KVAR can be set bymean of potentiometer P1 on cosØ/KVAR card or bymean of an external potentiometer (10KΩ-1W) connectedto AVR terminal block (30, 31, 32).
- For droop setting, see notice NT 1950080.
8 - VOLTAGE EQUALISATION (3F)- The following procedure must be made one time to takeaccount of the mains transformer primary/secondaryratio.
- At no load and mains voltage present at terminals 12,13, 14 of the AVR terminal block.
- Short circuit terminals 35,36 of the AVR terminal block
- Adjust P1 of MAIN I/O card to have generator andmains voltage as equal as possible.
- Remove the strap between terminals 35, 36 of the AVRterminal block.
- The initial setting is made.
In normal operation the contact between terminals 35,36 of the AVR terminal block must be closed with syn-chronizer operation and can be opened after coupling.
9 - MANUAL OPERATION (if used)- If a manual mode card is used, it is possible to controldirectly the field current of the generator.
- In automatic mode, adjust the potentiometer P2 onmanual mode card to have the LEDs "HIGHT" and"LOW" off and the LED OK ligthing. At this time themanual setting is equal to the automatic channel control.
- Short-circuit the terminals 47,48 of the AVR terminalblock gives control to the manual channel and the fieldcurrent is adjusted by potentiometer P2 and/or by anexternal optionnal potentiometer (10KΩ-1W) connectedto the terminals 30, 52, 23 of the AVR terminal blockcusor on 52 and hot point on 30.
- This mode can be used when initial start-up of thegenerator, to make test after problems or when operatingwith the mains. It cannot be used when solo operationbecause it is not possible to follow the load variations.
- When coupling with the mains on load, if trip of thegenerator occurs, an overvoltage may occurs due to thefact that the field current setting is too hight regarding theload of the generator. On this case, an internal circuit ofthe card decreases the field current to limit the over-voltage approximatively to 110% of nominal. LED"LIMIT" on front of the card will light. The setting of fieldcurrent must be reset manually to the no load value andthe LED "LIMIT" will switch off.
46
Start-upR630
AVRModel R630
NT1959000/a-11/92 f:2/2