Mars CashFlow 126, CashFlow 129 Quick Reference Manual

CashFlow

®

Coin Routing

Warning:- If directing more than one coin to the same exit
route then use diodes on the routing plug.

Route Inhibit Connector

The function of the route Inhibit Connector is to signal when
specific exits, external to the product, are in a “Full”
condition. Signals from the machine ensure that, while the
“Full” condition continues, further coins/tokens directed to
that exit will be re-routed to an alternative exit. The
instruction as to which alternative exits can be used will

normally come from the routing plug. In order to inhibit a
particular route, 0V must be applied to its respective pin. An
alternative route must always be of a lower priority.

Ground0 Volts0 Volts9

Exit A is DefaultExit 8 is Default8

LOWEST

BDivert Route 77

DDivert Route 66

CDivert Route 55

(b)Divert Route 44

(a)Divert Route 33

(c)Divert Route 22

HIGHEST

(d)Divert Route 11

EXIT

Priorities

126129

Pin

Number

Route Inhibit Connector Detail

N.B. Clear exits are Separator only

Shaded exits are Manifold only

Separator Outline Manifold Outline

8 7 6

5

4

3

2

1

1

2

3

4

5
6
7
8

Reject

Viewed from above

8 Way Separator Exits

21
19
17
15
13
11

9

7

5
3

Coin A

Coin C

Coin E

Coin G

Pin

1Route 7 (B)

Route 6 (D)

Route 5 (C)

Route 1 (d)
Route 2 (c)
Route 3 (a)
Route 4 (b)

Pin

22
20
18
16
14
12
10

8
6
4
2

Coin B

Coin D

Coin F

Coin H

Route 7 (B)

Route 6 (D)

Route 5 (C)

Route 1 (d)
Route 2 (c)
Route 3 (a)
Route 4 (b)

Routing Plug Viewed From Wire Links End

Example 3

Routes coin E to route 1 then overflows it to route 2.

CashFlow

®

Coin Routing

The CashFlow® 126/129 validation system offers two
routing priority orders. These can be activated by the

use of links fitted to a routing plug.
If you use the upper case letter the overflow order is C,
D, B and A ( A = default exit route).
If the lowercase letter is used the overflow order is d, c,
a, and b.

Example:­If coin ‘F’ is set to route to exit ‘C ‘ ( first exit) and when
tube ‘C’ is full (i.e. inhibit applied to tube C) will route to
exit ‘D’ (second exit), wire the route plug using wire
links as follows:-

pin 20 to 6 = coin ‘F’ to exit ‘C’ (first exit)
pin 5 to 3 = coin ‘F’ to exit ‘D’ (overflow/second
exit)

C

BA

D

(d) (c)

(a) (b)

Viewed from above

4 Way Separator Exits

Lowercase = Higher Priority Route.

Uppercase = Lower Priority Route.

Routing Plug Viewed From Wire Links End

21
19
17
15
13
11
9
7
5
3

Exit B

Exit D

Exit C

Coin A

Coin C

Coin E

Coin G

Pin

Pin

1

22
20
18
16
14
12
10

8
6
4
2

Exit B

Exit D

Coin B

Coin D

Coin F

Coin H

Exit C

( exit 'd' )
( exit 'c' )
( exit 'a' )
( exit 'b' )

( exit 'd' )
( exit 'c' )
( exit 'a' )
( exit 'b' )

Example 1

Routes £1 (coin output F) to exit D,
then £1 overflows to exit C.
This routing plug is wired using standard
wire links.

Routing Plug Viewed From Diode Links End

Example 2

21
19
17
15
13
11

9
7
5
3

Exit B

Exit D

Exit C

Coin A

Coin C

Coin E

Coin G

Pin

Pin

1

22
20
18
16
14
12
10

8
6
4
2

Exit B

Exit D

Coin B

Coin D

Coin F

Coin H

Exit C

( exit 'd' )
( exit 'c' )
( exit 'a' )
( exit 'b' )

( exit 'd' )
( exit 'c' )
( exit 'a' )
( exit 'b' )

Routes 20p & £1 (coin outputs D & F)
to exit C.
This routing plug is wired using diode links.

Mars Electronics International,
Eskdale Road,
Winnersh Triangle, Wokingham,
Berkshire, RG41 5AQ

Internet:http://www.meiglobal.com

CashFlow

®

126 / 129

Quick Reference Guide

Applies to Product Version G1

--15F--14E--13D--12CNo£211BNoH£2 Tight10A

Yes£199YesF£188NoG

50p New77

Yes

50p66

NoE50p Tight55

YesD20p44

YesC10p33

YesA5p22

YesBToken 211NoB

Token 100

Coin

Enabled

Coin

Output

Coin
Type

Channel
Affected

Position

25012 G1 ©, Mars, Inc., 1997 707403044

Teaching a New Token

The following procedure must be followed in order to teach
a new token into channel 1.

NOTE:- Rotary data switch position “E” is used to
program tight window token limits and ‘F’ standard
window token limits.

1.Switch OFF the power to the validator.

2.Set the 4 way DIL teach switches 2, 3 & 4 to ON,

ON & OFF (channel 1) or OFF, ON & ON for

(channel 0)

3.Set rotary data switch to position “F” standard

window limit.

4.Switch ON the power to the product.

(The LED will start flashing).

5.Insert 10 to 20 (minimum 10) of the desired

tokens through the validator.

6.Return the 4 way DIL switches 2, 3 & 4 to

Normal Operation settings.
(LED will stop flashing and stay ON to indicate
success).

If the LED continues to flash OFF a number of
times this indicates a failure to teach the new
token. See LED Assistance Codes table for help
and then restart procedure again.

7.Token is now programmed and ready to use.

(New token information has been stored in coin
channel “1” which is rotary switch position “1”).

Any previous taught token information in this
channel will be overwritten).

NOTE:- If token self teach is successful but token
taught is rejected i.e. gives 3 flashes of the LED, check
that channel “1” is enabled.
To enable the new token set the rotary data switch to
position “1” then refer to enabling coin or tokens
configuration procedure).

Product Configuration

-FAuto configuration

-DParallel output ONOFFOFF

-CBinary coded output

Selecting Machine Interface Types

---OFF-Set the alarm OFF

---ON-Set the alarm ON

ONOFFOFF-0 - 7

Change overflow default exit route

ONOFFON-EFraud Defence teach channel 0

OFFONON-

s

E or F

Self teach a token for channel 1

ONONOFF -

s

E or F

Self teach a token for channel 0

OFFONON-0 - DToken group for channel 1

ONONOFF-0 - DToken group for channel 0

OFFOFFON-0 - FEnable a coin or token channel

OFFONOFF-0 - FInhibit a coin or token channel

SW4SW3SW2SW1

2 3 4

ON

1

2 3 4

ON

1

Channel
Position

Product Configuration Table

What Do You Want To Do?

w E = Tight Window Limits. Channel F = Standard Window Limits

x 8

Token material outside

acceptable limits

x 7

Token diameter outside

acceptable limits

x 6

Check that there are no mixed

sample tokens

Token thickness outside

acceptable limits

x 5

Ensure that the rotary switch is

set to “F”

Incorrectly set rotary

switch position

x 4

Ensure at least 10 tokens have

been inserted

Not enough sample tokens

inserted

x 3

No activity was registered

within 30 seconds

Validator timed outx 2

Reason/ActionDescription

for Code

LED

Flashes

Teaching Token (LED Assistance Codes)

Normal Operation Settings

2 3 4

ON

1

2 3 4

ON

1

Set switches 2, 3 & 4

to ON or OFF

No power to validatorOFF

Validator is set in teach modeFlashing

Coin inhibited by validator or machine4 x Flash

Coin inhibited by validator 3 x Flash

Coin rejected as unrecognised2 x Flash

Reject lever pressed or coin accepted1 x Flash

Power is ON validator is O.K.ON

MEANINGSTATE

What Is The Green LED Doing?

Using 4 Way DIL & Rotary Data Switches

To achieve a successful change to the configuration of the
validator the following procedure must be followed.

1.Switch OFF the power to the validator.

2.Set the 4 way DIL switches to the configuration

settings required. (See Product Configuration
Table)

3.Select the required data / channel position using

the rotary data switch. (see product configuration
table)

4.Switch the validator power ON. (The LED will

start flashing).

5.Return the 4 way DIL teach switches back to

Normal Operation Settings. (Switches 2,3 & 4 set
to all ON or all OFF).

6.The LED will stop flashing and will stay ON. This

will indicate a successful change and that the
validator is ready for normal operation.

NOTE:- If teach is entered by mistake, switch OFF the
power to the validator before moving the 4 way DIL

switch positions else the mech. may learn something
unintentionally.