Azkoyen Eurocoin Hopper U-II Technical manual

Eurocoin Technical Support Docum ent
www.eurocoin.co.uk
TEL + 44 208 275 3000
sales@eurocoin.co.uk
Product Description
Azkoyen Hopper U- I I
Original
Manufacturer
Eurocoin
Part Num ber
Current
Revision
Dat e of
Release
Azkoyen 3030xxxx Rev 1
Mar 2007
Docum ent Cont ent Sum m ary
Technical Manual

Te chn ica l I nf or m a t ion : HOPPER U – I I cct alk 1
HOPPER U- I I
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Con t en t I n de x
1 . I N TROD UCTI ON 5
2 . GEN ERAL D ESCRI PTI ON . 5
2.1. CAPACI TY OF THE HOPPER U- I I . 5
2.2. RANGE OF COI NS. 6
2.3. DETECTI ON OF FULL AND EMPTY 6
2.4. DOUBLE COUNTI NG. 7
2.4.1 Hopper U-I I plus cctalk. 7
2.4.2 Hopper U-I I plus conventional. 7
2.5. PAYOUT SPEED. 7
2.6. PROTOCOLS. 7
2.7. I N- LI NE CONFI GURATI ON. 8
2.8. ANTI - JAM AND ANTI - SPAN SYSTEMS 8
3 . TECHN I CAL CHARACTERI STI CS 9
3.1. POWER SUPPLY. 9
3.2. CURRENT DRAW. 9
3.3. DI MENSI ONS. 9
3.4. ELECTRI CAL DI AGRAMS AND PI N OUT. 10
3.4.1. - Elect rical diagram of t he Hopper U- I I cctalk. 10
3.4.2. - Elect rical diagram of t he Hopper U- I I convent ional. 10
4 . DESCRI PTI ON OF COMPONEN TS. 1 1
4.1. COI N BAY. 12
4.2. MOVI NG FLAP. 12
4.3. COI N LEVEL DETECTORS. 13
4.4. BLADE. 13
4.5. TRI GGER. I m proved! 14
4.6. CONTROL BOARD. I m proved! 14
4.6.1. Cctalk control board. Switches and connectors. I m proved! 14
4.6.2. Cont rol board convent ional. Jum pers and connectors. I m proved! 17
4.7. COI N EXTRACTOR DI SK 20
4.8. DI SK COI N EXTRACTOR MOTOR. I m proved! 21
4.9. I NFRARED PHOTOCELLS FOR COI N COUNTI NG. I m proved! 21
4.10. HOPPER BASE I m proved! 21
4.11. DI SK SUPPORT 21
4.12. DI SK SUPPORT COVER. I m pr oved! 22
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4.13. ACCESSORI ES. 22
4.13.1. Mechanical supplem ent to increase t he capacity of t he hopper. 22
4.13.2. Overflow. 23
4.13.3. Electrom echanical scales. 24
5 . TOOLS. 2 4
5.1. TL20 AND HEUS. 24
6 . W ORKI N G CON D I TI ON S AN D N ORM S. 2 5
7 . CLEAN I N G AN D MAI N TEN AN CE 2 6
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Table index
Table 1. Current draw. 9
Table 2. Capacit y of the Hopper U- I I 12
Table 3. Coin dim ensions. 14
Table 4. Pin out connect or Tools 15
Table 5. Switches. 16
Table 6. Addresses for swit ch com binations. 17
Table 7. Working m ode for swit ch com binations. 17
Table 8. Current of t he electric m otor. 21
Table 9. Capacit ies of t he ext ensions. 23
Figure in de x .
Figure 1. Hopper U-I I ................................................................................................................... 6
Figure 2. Configuration of the Hopper U-I I in line. .......................................................... 8
Figure 3. Position of the bases of two Hoppers U-I I in line. ......................................... 8
Figure 4. Dim ensions Hopper U- I I .......................................................................................... 9
Figure 5. Diagram Hopper U-I I cctalk. ................................................................................ 10
Figure 6. Diagram Hopper U-I I convent ional. .................................................................. 11
Figure 7. Com ponents of t he Hopper U-I I . ........................................................................ 11
Figur e 8. Ty pes of flaps ............................................................................................................. 13
Figure 9. Types of blade............................................................................................................ 14
Figure 10. Cont rol board cctalk .............................................................................................. 15
Figure 11. Posit ion of the swit ches ....................................................................................... 16
Figure 12. Cont rol board convent ional ................................................................................ 18
Figure 13. Pin out Hopper U- I I conventional standard. ................................................ 18
Figure 14. Pin out Hopper U-I I convent ional with em pty det ect ion. ....................... 18
Figure 15. Pin out Hopper U-I I convent ional with full and em pt y detection. ...... 19
Figure 16. Types of control of t he working m ode ........................................................... 19
Figure 17. Configurat ion Hopper U-I I standard or plus. .............................................. 19
Figure 18. Posit ion of the swit ches ....................................................................................... 20
Figure 19 Types of disk. ............................................................................................................ 20
Figure 20. Hopper base............................................................................................................. 21
Figure 21. Disk support . ........................................................................................................... 22
Figure 22. Disk support cover. ............................................................................................... 22
Figure 23. Ext ensions. ............................................................................................................... 23
Figure 24. Overflow. ................................................................................................................... 23
Figure 25. Elect rom echanical scales. ................................................................................... 24
Figure 26. TL20............................................................................................................................. 25
Figure 27. Cleaning of t he Hopper U-I I .............................................................................. 26
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1 . I N TROD UCTI ON
This m anual contains t he t echnical inform at ion on t he rot ating hoppers in t he Hopper U- I I .
The following m odels are included in t his fam ily of products:
- H oppe r U - I I cct a lk
- H oppe r U - I I cct a lk e n cr yp t ed
- H oppe r U - I I cct a lk plu s
- H oppe r U - I I cct a lk p lu s e ncr ypt e d
- H opper U- I I conv ent iona l
- H opper U- I I conv ent iona l plu s
The rot ating Hopper U- I I is a result of the redesigning process of the t radit ional Hopper U,
obtaining an opt im ised version of t he hopper. This product is 100% com pat ible with t he
previous Hopper U m odel.
This docum ent contains all t he characteristics of t his new product , concent rat ing especially on
the benefit s this hopper provides in com parison t o t he t raditional Hopper U.
2 . GEN ERAL D ESCRI PTI ON .
A rotat ing hopper of t he U- I I series is an int elligent m echanism designed for t he ret urn or
payout of change of a part icular coin t ype. I t wor ks in com binat ion w ith anot her int elligent
m echanism t hat governs it and of which it form s part ( gam ing, vending, parking m achines,
etc).
These hoppers have a m ult icoin ext ract ion system . The m ulticoin system is defined as a
system that allows t hese hoppers to payout a coin whose dim ensions are bet ween 12 and 32
m m in diam et er and 1.2 t o 3.5 m m t hick.
The product is highly reliable, and has a useful life t hat guarant ees a m inim um of 2 m illion coin
ext ractions.
2 .1 . CAPACI TY OF TH E H OPPER U- I I .
The quantity of coins t hat can be st ored in t he coin bay of the hopper depends on t he m odel.
There are 4 different m odels in the series that provide a range of coin capacit ies. There is also
the possibilit y to increase their capacit y by t he use of supplem ent s.
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Sm all hopper
Me dium Hoppe r
I nt e r m e dia t e h opp er
Lar ge hopper
L= 115m m and 2 5 0
coins
L= 154 m m and 4 0 0
coins
L= 189 m m and 5 2 5
coins
L= 228m m and 6 0 0
coins
Coin s of Ø 2 4 m m
a nd t h ick n e ss 2 . 8
m m
Coins of Ø 2 4 m m
a nd t h ick n e ss 2 . 8 m m
Coins of Ø 2 4 m m
a nd t h ickn ess 2 .8 m m
Coin s of Ø 2 4 m m
a nd t h ickn ess 2 .8 m m
Figure 1 . H oppe r U- I I
Consult sect ion “ COI N BAY.” t o see the exact capacities depending on t he size of coin, and also
t he supplem ent s.
2 .2 . RAN GE OF COI N S.
The m ult icoin ext raction system of the hopper U-I I , guarant ies the payout of coins whose
dim ensions ar e bet ween 1.2 and 3.5 m m t hick, and 12 t o 32 m m in ø.
Consult sect ion “ COIN EXTRACTOR DISK”for m ore det ails.
2 .3 . D ETECTI ON OF FU LL AN D EM PTY
The Hopper U-I I has det ection m echanism s t hat detect t he full and em pt y levels of t he coins in
the coin bay.
The detection of em pty is done by using an electronic infrared photocell system . ( See det ails in
section “COIN LEVEL DETECTORS.)
The detection of full is carried out in two different ways:
- Using t wo infrar ed phot ocells that work in t he sam e way as t he em pt y det ect ion phot ocells.
( See det ails in sect ion “ COIN LEVEL DETECTORS.) .
- Using elect rom ech an ical scales. ( See det ails in sect ion “4.13.3. Electromechanical scales.”).
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2 .4 . D OU BLE COUN TI N G.
The Hopper U- I I has a coin exit control system t hat provides added protect ion against at tem pt s
of fraud. When t he Hopper U-I I has t his m echanism inst alled, it is called Hopper U-I I plus.
I t is a m echanism based on an opt ic syst em that cont rols t he m ovem ent of t he t rigger, in a way
that t he exit of t he coin is announced by t his m echanism and confirm ed by t he opt ic sensor
that count s t he coins. This m echanism is available for t he Hopper U-I I parallel, and for t he
Hopper U- I I cct alk.
2 .4 .1 Hopper U- I I plus cct alk .
When any anom aly occurs, w hich could be an at tem pt at fraud, it will be com m unicat ed by t he
Hopper U- I I plus cct alk as a reply t o t he cct alk er ror com m and “ 16 3 Test Hopper” ( See det ails
in t he m anual “ Pr ot ocol cct alk H opp er U - I I ”)
I t is possible t o t ransform a standard Hopper U- I I int o a Hopper U- I I plus with a kit . Once the
kit is inst alled, it is only necessary to change t he posit ion of dipswit ch 7 ( t o ON) so t hat t he
st andard U- I I standard works as a Hopper U- I I plus.
2 .4 .2 Hopper U- I I plus conve nt iona l.
When any anom aly occurs, w hich could be an at tem pt at fraud, it will be com m unicat ed by t he
Hopper U- I I plus convent ional using t he corresponding error com m ands ( see det ails in t he
m anual “ Pr ot ocol con ve n t ion al H op pe r U - I I ”) .
I t is possible t o t ransform a standard Hopper U- I I int o a Hopper U- I I plus with a kit . Once the
kit is inst alled, it is only n ecessary t o change t he posit ion of dipsw it ch 7 ( t o ON) , t his is
explained in “ Figu re 17. Configurat ion Hopper U- I I st andar d or plu s.
2 .5 . PAYOUT SPEED.
The Hopper U- I I pays out up t o 8 coins per second. This speed varies with t he different disks
used. See det ails in section “ COIN EXTRACTOR DISK” .
2 .6 . PROTOCOLS.
The Hopper U-I I can work with parallel prot ocol ( convent ional) and cct alk prot ocol. To see t he
convent ional Hopper U-I I protocol, consult t he m anual “Con ve n t iona l H oppe r U- I I Pr ot ocol”
To see t he cct alk Hopper U- I I protocol, consult t he m anual “cct a lk H opp er U- I I Pr ot ocol”
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2 .7 . I N - LI NE CON FI GURATI ON .
Two hoppers can be configured in line wit h one another to m axim ise t he use of space.
Fig ur e 2 . Con figu ra t ion of t h e H opp er U - I I in lin e.
Figure 3 indicates the positions that t he bases of the Hopper U-I I should be placed to achieve
opt im um perform ance of t he t wo hoppers in line.
Fig ur e 3 . Posit ion of t h e b ase s of t w o H op pe rs U- I I in lin e .
2 .8 . AN TI - JAM AN D AN TI - SPAN SYSTEM S
Jam . The hopper has a current draw det ect or t hat , when t here is a coin j am , r ev erses t he spin
direction of t he disk m ot or for 1.5 secon ds t o fr ee t he j am m ed coins.
Span. The nam e given t o the t im e bet ween t he extraction of t wo coins. When t he hopper
detect s a t im e span of m or e t han 5 seconds t he hopper reverses t he spin direction of t he disk
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m ot or for 1.5 seconds t o m ove t he pile up of coins in t he hopper and get t hem int o a position
to be ext racted.
3 . TECHN I CAL CH ARACTERI STI CS
3 .1 . POW ER SUPPLY.
This hopper is capable of working correctly in a range of volt ages from 1 2 V ( ± 10% ) and 2 4
V(± 10% ).
3 .2 . CURREN T D RAW .
12Vdc – 24 Vdc
(± 10% )
St art up current 3 A ± 20%
St andby current 50 m A ± 5%
Coin pay out current 450 m A ± 20%
Table 1 . Curre n t dra w .
3 .3 . DI M EN SI ON S.
Tolva Largo (mm)
Pequeña 115
Mediana 154
Intermedia 189
Grande 228
Tolva Largo (mm)
Mediana 191
Grande 228
Figur e 4 . D im e nsions Hopper U- I I
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3 .4 . ELECTRI CAL D I AGRAM S AN D PI N OUT.
3 .4 .1 . - Ele ctr ica l dia gr am of t he Hopper U- I I cct a lk.
The follow ing diagram shows the cct alk driver included in the Hopper U-I I .
Fig ur e 5 . D ia g ra m H opp er U - I I cct a lk .
3 .4 .2 . - Ele ctr ica l dia gram of t h e H oppe r U- I I con ve n t ion al.
The following diagram shows t he convent ional driver included in the Hopper U-I I .
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Fig ur e 6 . D ia g ra m H opp er U - I I con ve nt ion a l.
4 . D ESCRI PTI ON OF COM PON EN TS.
Figu r e 7 . Com p on en t s o f t h e H op pe r U - I I .
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4 .1 . COI N BAY.
The coin bay is where t he Hopper U st ores t he coins and where t hey are extracted from when
ordered t o do so by t he m achine. I t s design allows the storage of t he m axim um num ber of
coins in t he m inim um space, t aking int o account t hat even the last coin can be ext ract ed.
There are various m odels wit h different capacities.
Hopper
Coin bay Capacit y of coins
Ø 2 4 m m
Thickne ss 2 .8
m m
5
cent €
1 0
cent €
2 0
cent €
5 0
cent €
1
€
2
€
Sm all 250 450 450 350 250 275 225
Medium 400 775 775 600 375 425 325
I nter m ediat e 525 975 975 775 525 600 475
Large 600 1,100 1,100 975 700 750 650
Ta ble 2 . Ca p acit y of t h e H opp er U - I I
4 .2 . M OVI N G FLAP.
This elem ent m oves and doses t he flow of coins t hat m ove from t he coin bay t o t he ext ract or
disk.
The flap is fixed t o the coin bay at t he top and the lower part rest s on t he axis of t he disk. This
way t he spinning disk t ransm its a rocking m otion to t he flap t hat m oves the coins in t he
hopper; t his m ovem ent m oves t he coins t owards t he ext raction system . For coins of m ore t han
29 m m in diam et er, a different flap is used; it is called t he short flap ( it allow s the bigger coins
to pass under t he flap t o reach t he ext ractor disk) . This flap is not recom m ended for use wit h
sm aller coins as it will allow t oo m any coins t o reach the disk causing problem s wit h t heir
ext raction.
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Large flap Small flap
Figur e 8 . Types of flaps
4 .3 . COI N LEVEL DETECTORS.
The Hopper U-I I has full and em pt y detection sensors.
Em pt y d et e ct ion .
Em pt y det ect ion is carr ied out by a ph ot ocell ( phot odiode an d phot ot ransist or) t hat is locat ed in
the holes at t he bot t om of the coin bay.
The phot odiode em its a beam of light t hat is detect ed by t he phot ot ransist or when t here are no
coins in t he hopper. When t he coin level is lower t han the height established for t he phot ocells,
the control board detect s t his and advises t he m achine.
Fu ll d et e ct ion .
Full det ection, as with the em pt y det ect ion, is carried out by a phot ocell ( phot odiode and
phot otransistor) t hat is located in t he holes at t he t op of the coin bay.
The photodiode em it s a beam of light t hat is det ect ed by t he phot ot ransist or when t he coin
level is lower than t he phot ocells. When t he coin level is higher lower than t he height
est ablished for t he photocells, t he cont rol board detects t his and advises t he m achine.
The applicat ion of t his sy st em is possible in all t he hopper m odels.
4 .4 . BLAD E.
The function of t his elem ent is to slice between t he coin and t he disk m aking t he coin leave t he
hopper. The hoppers can have t wo t ypes of blade:
Long blade : for disks of 7 and 8 ridges.
Short blade: for disks of 12 ridges.
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Long blade Short blade
Figur e 9 . Types of blade
Both m odels have a m et allic reinfor cem ent which is held on t he blade with a screw.
Thickness
a cce pt e d
Diam et er
a cce pt e d
Ca vit ie s in t h e disk
22m m – 32m m 7
Long blade 1.5m m – 3.2m m
18m m – 30m m 8
Short blade 1.5m m – 3.2m m 12m m – 20m m 12
Modifie d shor t blade 1.2m m – 1.5m m 12m m – 20m m 12
Table 3 . Coin dim ensions.
4 .5 . TRI GGER. I m pr ove d!
I n t he coin ext raction process this device com presses the trigger spring and at a cert ain point it
shoot s the coin out of the hopper.
The Hopper U-I I has only one t ype of trigger, whereas previous m odels had t wo. I t is m ade of
plastic.
4 .6 . CON TROL BOARD . I m proved!
This elem ent gov erns t he hopper and com m unicates wit h t he m achine. The wiring loom s t hat
correspond t o t he count ing, filling and em pt ying funct ions and m ot or are connect ed to it . There
are different m odels depending on t he protocol used ( cctalk or convent ional) and it s operat ion
wit h Azkoyen tools.
4 .6 .1 . Cct alk cont rol board. Sw it ches a nd connect or s. I m pr oved!
There is only one m odel of t he board for all t he Hoppers U- I I cct alk.
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The following figure shows the use of each one of the connectors and switches located on t he
control board.
1
2
34 56
7
8 1 - Coin e x it de t ect ion
2 - Double coun t
3 - Em pt y se nsor
4 - Full se nsor
5 - Sw it ch
6 - Conne ct or for progr a m m ing
t ools
7 - Con ne ct ion of t h e m ot or
Fig ur e 1 0 . Con t ro l b oa r d cct a lk
Con ne ct or s.
Con ne ct o r cct a lk :
This connect or is used for com m unication wit h t he m achine, which is cct alk. I t is a 10- pin
connect or.
The pin out of the connect or is the following:
Pin 1- Data
Pins 7 and 10 Power
Pins 4 and 8 Ground
Conn e ct or 6 pin s.
This connector is used for com m unication w it h Azkoyen program m ing t ools. ( See chapt er
“TL20 AND HEUS.)
The pin out is the following:
Pin Fu nct ion
1 -
2 GND
3 RX
4 -
5 TX
6 + 5V
Ta ble 4 . Pin ou t con ne ct or Tools
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This con n ect or is n ot ope r at iv e in t h e hop pe rs U- I I f or I t a ly .
Sw it che s
The configurat ion of t he address of t he Hopper U- I I , as wit h ot her functions, is done with the
dip swit ches, 8 sw itches located on t he board which is accessible from t he underside of t he
hopper as shown in the illustrat ion.
Fig ur e 1 1 . Posit ion of t h e sw it ch e s
The funct ion of t he swit ches is shown in t he following tables.
SW 1 SW 2 SW 3 SW 4 SW 5 SW 6 SW 7 SW 8
Select ion of the address of
the Hopper Not used Selection of t he
address m ode
Select ion of the
working m ode
Ta ble 5 . Sw it ch e s.
- Wit h the swit ches 1, 2, 3 and 4 up to 16 Hoppers U- I I can be addressed, as indicated in the
following t able:
cctalk
address
SW1 SW2 SW3 SW4
3 OFF OFF OFF OFF
4 ON OFF OFF OFF
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5 OFF ON OFF OFF
6 ON ON OFF OFF
7 OFF OFF ON OFF
... ... ... ...
18 ON ON ON ON
Ta ble 6 . Addr e sse s f or sw it ch com bin at ion s.
- Switch 5 is not used.
- Swit ch 6 is used t o select t he address of t he hopper U-I I ; the address can be select ed by
using t he switches of by t he address saved in t he m em ory of the hopper ( which can be
m odified using cct alk com m ands) .
- Swit ches 7 and 8 are used t o select t he working m ode of the Hopper U-I I as shown in t he
following t able:
W ORKI N G M OD E SW 7 SW 8
STANDARD OFF OFF
STANDARD ENCRYPTED OFF ON
PLUS ON OFF
PLUS ENCRYPTED ON ON
Table 7 . W ork ing m ode for sw it ch com binat ions.
4 .6 .2 . Cont rol boa rd conve nt iona l. Jum pers a nd con ne ct or s. I m pr oved!
There is only one m odel of board for all the Hopper U-I I convent ional.
The function of each one of the connect ors an d j um per s on t he control board are shown in the
following figure.
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1 - Pr ot ocol con ne ct or
2 - D et e ct ion of coin e x it
3 - Double count
4 - Em p t y se nsor
5 - Full sensor
6 - Logic se le ct ion
7 . D ou ble cou nt se le ct ion
8 - Pr og ra m m in g t ool con ne ct or
9 - M ot or con ne ct ion
Fig ur e 1 2 . Con t r ol boa r d con ve nt iona l
There is only one m odel of cont rol board for all t he Hopper U- I I convent ional. Improved!
Con ne ct or for com m u nica t ion w it h t h e m a chin e ( conve nt ion al p rot ocol) .
The Hopper U-I I uses a connector of 10 pins ( 2x5) of 2.5m m , series Molex 8624 or sim ilar, for
com m unication wit h t he m achine.
The pin out of t his connect or depends on t he funct ion of the Hopper:
Pin Fu nct ion
1,2,3 Vdc
4,5,6 GND
7 Cont rol
8 Error
9 Coin
Figur e 1 3 . Pin ou t H opp er U- I I con ve nt ion al st a nda r d.
Pin Fu nct ion
1,2,3 Vdc
4,5,6 GND
7 Cont rol
8 Error
9 Coin
10 Em pt y
Fig ur e 1 4 . Pin ou t H opp er U- I I con ve nt ion al w it h e m p ty de t e ct ion .
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Pin Fu nct ion
1,2,3 Vdc
4,5 GND
6 Full
7 Cont rol
8 Error
9 Coin
10 Em pt y
Fig ur e 1 5 . Pin ou t H oppe r U- I I con ve nt ion al w it h f ull a nd e m p t y de t e ct ion .
Con ne ct or for t h e con t rol of t h e w or k ing logic.
Using connector 6 in figure 9 you can select t he w orking m ode of t he Hopper U- I I for t he
control of signal levels.
Po sit io n of t h e p in s W or king m odes
Cont rol wit h negat ive logic
digital signal
Cont rol wit h positive logic
digital signal
Cont rol by pulses
Figure 1 6 . Types of cont rol of t he w or king m ode
Consult t he m anual “ Pr otocol convent ional Hopper U- I I _v0.doc” t o see det ails of the
convent ional protocol.
Connect or for cont rol of the com m unicat ion.
Wit h configurat ion of connect or 7 in figure 9, you can configure t he working m ode of the
Hopper U- I I , as shown in figure 17:
Po sit io n of t h e p in s W or king m odes
St andard
Plus
St andard
Figure 1 7 . Configu r at ion Hopper U- I I sta ndard or plus.
10239 EN 03 - 2007
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