Fomotech ALPHA612SERIES Industrial Remote Control User Manual

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TABLE OF CONTENTS
1.
2.
SAFETY INSTRUCTION .............................................................................................
PUSHBUTTON CONFIGURATION
2.1 Alpha 607 & 608 Models .....................................................................................
2.2 Alpha 612 Models ...............................................................................................
3. TRANSMITTER OUTLINE
3.1.1 Alpha 607 & 608 Models .....................................................................................
3.1.2 Alpha 612 Models .............................................................................................
3.2 Alpha 607/608/612 Spare Parts ......................................................................
4. RECEIVER OUTLINE
4.1 Alpha 607 & 608 Models Internal Assembly .......................................................
4.2 Alpha 612 Models Internal Assembly ...................................................................
5. OUTPUT CONTACT DIAGRAMS
5.2 Alpha 607 Models .................................................................................................
5.3 Alpha 608 Models .................................................................................................
5.4 Alpha 612 Models .................................................................................................
6. SYSTEM CONFIGURATIONS
6.1 How to Set ID Codes .............................................................................................
6.2 Transmitter RF Channel Setting .............................................................................
7. RECEIVER SETTING
7.1 How to Set Receiver ID Codes ..............................................................................
7.2 Receiver RF Channel Setting ..............................................................................
7.3 Receiver Function Setting
..............................................................................
7.4 Frequency (RF) Channels Table ..............................................................................
8. TRANSMITTER OPERATION & STATUS LIGHT
8.1 Transmitter Operating Steps
..............................................................................
8.2 Transmitter Status light
..............................................................................
9. RECEIVER INSTALLATION
9.1 Preparation For Installation ...................................................................................
9.2 Step-By-Step Installation .......................................................................................
9.3 System Testing .......................................................................................................
9.4 Receiver System Status LED Display.....................................................................
10. TROUBLE SHOOTING.................................................................................................
11. SYSTEM SPECIFICATION ........................................................................................
12. PARTS LIST .................................................................................................................
-1-
Page
5-6
6-7
8-9
10-11
12-13
14
15-19
22
23
24
25
25
29
31
32
33
33
34
35
37
38
39
1. SAFETY INSTRUCTION
The Alpha 600 series are relatively simple to use, however, it is very important to observe the proper
safety procedures before, during, and after operation. When used properly, the Alpha 600 series will
enhance safety, productivity and efficiency in the workplace.
The following procedures should be strictly followed:
1.
The transmitter is equipped with a specialized battery charger. Only two ”AA” Ni-MH rechargeable
batteries are allowed to be used in the transmitter. Please note the polarity of the batteries. Do not
use other types of battery to prevent any accident
2.
3.
Do not change the IDs on transmitter encoder and receiver decoder boards at will.
Check the transmitter casing and pushbuttons daily. Should any damage that could inhibit the
proper operation of the transmitter be found the unit should be immediately removed from service.
The red emergency stop button (EMS) should be checked at the beginning of each shift to ensure it is
in proper working order and the “Stop” command is being received by the receiver.
In the event of an emergency press down the EMS button will immediately deactivates the receiver
MAIN relay and the transmitter power. Then turned the power “off ” from the main power source to
the crane or equipment.
Do not use the same RF channel and ID code as any other system in use at the same facility or within
300-meter distance.
Ensure the waist belt is worn at all time during operation to avoid accidental damage to the
transmitter.
4.
5.
6.
7.
8.
Rotate the power switch to OFF position when the transmitter is not operated temporarily or the
operation is finished.
9.
Any repair or adjustment should be proceeding by repair technician for radio remote controls.
10.
The operator should not change any electrical parts at will.
Changes or modifications are not expressly approved by the manufacturer could void the user's authority to
operate the equipment.
This device complies with EMC Directive 89/336/EEC, Low Voltage Directive 76/23/EEC and R&TTE
Directive 1995/5/EEC.This product has been approved for upper directives and covers the following
countries : Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece,
Hungary, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Poland, Portugal, Slovakia, Slovenia, Spain,
Sweden, The Netherlands, UK, Iceland, Norway, Switzerland, Turkey & Romania.
2. PUSHBUTTON CONFIGURATION
2.1 Alpha 607 & 608 Models
1.
2.
3.
4.
5.
6.
α607A
α607B
α607AT
α607BT
α608A
α608B
(Alpha 607A)
(Alpha 608A)
-------
(7) single speed pushbuttons
(6) double speed pushbuttons + (1) single speed pushbuttons
(6) single speed pushbuttons + (1) SELECT I/II pushbutton
(6) double speed pushbuttons + (1) SELECT I/II pushbutton
(8) single speed pushbuttons
(6) double speed pushbuttons + (2) single speed pushbuttons
(Alpha 607B)
(Alpha 607AT)
(Alpha 608B)
-3-
(Alpha 607BT)
2.2 Alpha 612 Models
1. Alpha 612A
2. Alpha 612B
3. Alpha 612C-1
4. Alpha 612C-2
5. Alpha 612D
6. Alpha 612E-1
7. Alpha 612E-1
→
→
→
→
→
→
→
(12) one-speed pushbuttons
(11) one-speed pushbuttons + I/II select pushbutton*
(6) two- speed + (6) one-speed pushbuttons
(8) two-speed + (4) one-speed pushbuttons
(10) two-speed + (2) one-speed pushbuttons
(6) two-speed + (5) one-speed pushbuttons + I/II select pushbutton*
(8) two-speed + (3) one-speed pushbuttons + I/II select pushbutton*
* For cranes with auxiliary hoist and trolley (changeover function).
POWER
STOP
α612A
POWER
STOP
α612B
POWER
POWER
STOP
STOP
α612C-1
α612C-2
α612D
-4-
α612E-1
α612E-2
3. TRANSMITTER OUTLINE
3.1 Transmitter Outline
3.1.1 Alpha 608
3.1.2.1 SIZE: 189mm X 68mm X 30mm
(Fig.1) Transmitter Outline
3.1.2.2 TX INTERNAL MODULE – encoder board
(Fig.4) Encoder board
-5-
3.1.2.3 TRANSMITTER INTERNAL ASSEMBLY
(1) Internal antenna
(2) Status LED display
(3) Battery contact
(5) Programming port
(6) ID code dip-switch
(7) JP2 setting pin
(8) JP1 setting pin
(Fig.2) Front View
3.1.3 Alpha 612
3.1.3.1 SIZE: 235mm X 68mm X 30mm
(Fig.1) Transmitter Outline
-6-
(Fig.3) Back View
3.1.3.2 TX INTERNAL MODULE
Encoder Board
3.1.3.3 TRANSMITTER INTERNAL ASSEMBLY
(1) Internal antenna
(2) Status LED display
(3) Battery contact
(5) Programming port
(6) ID code dip-switch
(7) JP2 setting pin
(8) JP1 setting pin
(Fig.2) Front View
-7-
(Fig.3) Back View
3.2 Alpha 604/607/608/612 Spare Parts
(3) Transmitter shock-absorbing rubber
(4) Shoulder strap
4. RECEIVER OUTLINE
4.1 Alpha 607/608
4.1.1 External Assembly
SIZE：310mm X 134mm X 72mm
HOIST
F2 5A
TROLLEY
F3 5A
U1
NC
D1
NC
SQ
SQ
AC
NC
COM2
12 NC
13 COM3
LV/AUX1
/AUX2
W1
11 S1
F4 5A
AC
E1
10 N1
BRIDGE
COM1
14 LV
15 AUX1
16 AUX2
F5 5A
17 COM4
MAIN
F6
5A
18 MAIN
19 COM5
POWER
FILTER
F1
FF1
20 L1(X1)
21 L2(X2)
22 GRN/YEL
Anti-vibration spring
must be grounded
MOD:
I D:
F REQ:
CH .
S/ N :
VOLT:
(Fig.7) Front View
(Fig.8) Back View
-8-
4.1.2 Alpha 608 Internal Assembly
(Fig. 9) Internal Parts Assembly
10
11
12
SE
13
FU
SE
FU
14
FU
SE
1) Receiving RF module
2) External programming port
3) Secondary power AC fuse (0.50A)
4) Contact output seat (CN8)
5) Primary power AC fuse (1.0A)
6) AC power input seat (CN2)
7) Internal Antenna
8) System Status LED display*
9) External antenna port
10) ID code dip-switch
11) RF channel dip-switch
12) Contact relay LED display
13) Pushbutton #1and #2 fuse (5.0A)
14) Contact output seat (CN3)
15) MAIN contact fuse (5.0A)
16) Pushbutton #3 and #4 fuse (5.0A)
17) Pushbutton #5 and #6 fuse (5.0A)
18) Contact output seat (CN4)
19) LV & AUX fuse (5.0A)
20) Cable gland & output cable
15
FU
16
SE
FU
SE
17
* Please refer to page 27 for system status
18
LED display information.
SE
FU
19
20
-9-
4.2 Alpha 612
4.2.1 External Assembly
SIZE：300mm X 230mm X 86mm
(Fig. 17) External Parts Assembly
1)
2)
Transparent top cover
Light-gray colored base
3)
4)
Mounting bracket with shock absorbers
Cable gland / Cord grip
- 10 -
4.2.2 Alpha 612 Internal Assembly
13
14
15
16
17
18
19
20
10
11
12
(Fig. 18) Internal Parts Assembly
1)
2)
3)
4)
5)
6)
7)
8)
9)
10)
11)
Power LED display*
SQ LED display**
Status LED display****
DC power relay LED display***
Programming port
Jumper settings
Function dip-switch
Pushbutton #3 and #4 relay fuse (5.0A)
Pushbutton #5 and #6 relay fuse (5.0A)
Pushbutton A1and A2 relay fuse (5.0A) 21)
Pushbutton A3 relay fuse (5.0A)
POWER
12) Pushbutton #1 and #2 relay fuse (5.0A)
13) Receiving RF module
14) External antenna port
15) RF channel dip-switch
16) ID code dip-switch
17) Secondary power fuse (0.8A)
18) Voltage selector seat
19) MAIN relay fuse (5.0A)
20) Pushbutton A4 relay fuse (5.0A)
Primary power fuse (1.0A)
22) Low-voltage (LV) relay fuse (5.0A)
AC Power Source Indicator "on"
→
AC input power supplied.
"off"
→
No AC input power.
**
SQ ~ RF Signal Indicator "on"
→
RF signal detected and received.
"off"
→
No RF signal detected or received.
Blinking at transmitter power “off” →
Other radio interference.
*** RELAY_COM ~ DC Power Source to Relays "on" →
DC power to relays.
"off" →
No DC power to relays.
**** STATUS ~ Receiver System Status LED Display →
Please refer to page 32.
- 11 -
5. OUTPUT CONTACT DIAGRAMS
5.1 Alpha 607 Models
(Alpha 607A)
(Alpha 607B)
HOIST
F2 5A
TROLLEY
F3 5A
U1
NC
HOIST
F2 5A
D1
NC
COM1
E1
TROLLEY
F3 5A
W1
NC
COM2
10 N1
BRIDGE
LV/AUX1
E1
W1
E/W2
COM2
13 COM3
14 LV
LV/AUX1
15 AUX1
16 NC
F5 5A
17 COM4
MAIN
F6
5A
18 MAIN
19 COM5
18 MAIN
19 COM5
F1
20 L1(X1)
POWER
21 L2(X2)
22 GRN/YEL
FILTER
FILTER
POWER
COM1
12 N/S2
16 NC
FF1
D2
13 COM3
17 COM4
F1
D1
11 S1
15 AUX1
MAIN
F6
5A
U2
12 NC
14 LV
F5 5A
U1
10 N1
BRIDGE
F4 5A
11 S1
F4 5A
FF1
20 L1(X1)
21 L2(X2)
22 GRN/YEL
Anti-vibration spring
must be grounded
Anti-vibration spring
must be grounded
- 12 -
(Alpha 607AT)
HOIST
F2 5A
TROLLEY
F3 5A
(Alpha 607BT)
U1
NC
HOIST
F2 5A
D1
NC
COM1
E1
TROLLEY
F3 5A
W1
NC
COM2
10 N1
BRIDGE
16 SEL-II
W1
E/W2
COM2
16 SEL-II
17 COM4
17 COM4
MAIN
F6
5A
19 COM5
18 MAIN
19 COM5
F1
20 L1(X1)
POWER
21 L2(X2)
22 GRN/YEL
FILTER
FILTER
POWER
E1
15 SEL-I
F5 5A
18 MAIN
FF1
COM1
14 LV
LV/SEL-I
/SEL-II
15 SEL-I
F1
D2
13 COM3
14 LV
MAIN
F6
5A
D1
12 N/S2
13 COM3
F5 5A
U2
11 S1
12 NC
LV/SEL-I
/SEL-II
U1
10 N1
BRIDGE
F4 5A
11 S1
F4 5A
FF1
20 L1(X1)
21 L2(X2)
22 GRN/YEL
Anti-vibration spring
must be grounded
Anti-vibration spring
must be grounded
- 13 -
5.2 Alpha 608 Models
(Alpha 608A)
HOIST
F2 5A
TROLLEY
F3 5A
(Alpha 608B)
HOIST
F2 5A
NC
D1
NC
COM1
E1
TROLLEY
F3 5A
W1
NC
COM2
11 S1
F4 5A
W1
E/W2
COM2
16 AUX2
F5 5A
17 COM4
17 COM4
MAIN
F6
5A
18 MAIN
19 COM5
18 MAIN
19 COM5
F1
20 L1(X1)
POWER
21 L2(X2)
22 GRN/YEL
FILTER
FILTER
POWER
E1
15 AUX1
16 AUX2
FF1
COM1
14 LV
15 AUX1
F1
D2
13 COM3
LV/AUX1
/AUX2
14 LV
MAIN
F6
5A
D1
12 N/S2
13 COM3
F5 5A
U2
11 S1
12 NC
LV/AUX1
/AUX2
U1
10 N1
BRIDGE
F4 5A
10 N1
BRIDGE
U1
FF1
20 L1(X1)
21 L2(X2)
22 GRN/YEL
Anti-vibration spring
must be grounded
Anti-vibration spring
must be grounded
- 14 -
5.3 Alpha 612 Models
(Alpha 612A) – same as Alpha 580A+2
- 15 -
(Alpha 612B) – same as Alpha 580B+2
- 16 -
(Alpha 612C-1) – same as Alpha 580C-1+2
- 17 -
(Alpha 612C-2) – same as Alpha 580C-2+2
- 18 -
(Alpha 612D) – same as Alpha 580D+2
- 19 -
(Alpha 612E-1) – same as Alpha 580E-1+2
- 20 -
(Alpha 612E-2) – same as Alpha 580E-2+2
- 21 -
6. TRANSMITTER SETTINGS
6.1 How to Set ID Codes
6.1.1 Set by programming tool
6.1.2 Set by encoder board JP1, 1st / 2nd pin and dip-switch
Setting Steps:
(1) Rotate the transmitter power to OFF position
(2) Disassemble shock-absorbing rubber
(3) Put the transmitter pushbutton downward and disassemble transmitter bottom casing.
(4) Set ID code with dip-switch and put short boot on 1st / 2nd pin of JP1.
(5) Make sure the batteries are installed properly.
(6) Rotate the transmitter power switch to ON position.
(7) Green status LED ON for 0.1 sec, OFF for 0.1 sec, flash for 1 sec. (5 times)
(8) Green status LED steady ON indicates the setting is completed. If the LED status light is changed to red,
the setting is failed.
Please repeat the above setting steps until the setting is successful.
(9) After setting is completed and successful, remove short boot on 1, 2 pin of JP1.
(10) Rotate transmitter power switch to OFF position.
編碼板
(Fig. 10) Back view
(Fig. 11) Position of dip-switch & jumpers
Top slot ON Æ “1”; bottom slot Æ “0”.
The setting above is 00000011.
- 22 -
6.2 Transmitter Channel Settings
Transmitter channel setting (select the channel you would like to operate. No exceed to
channel limit)
6.2.1 Set by programming tool
6.2.2 Set by encoder board 2nd & 3rd pin of JP1 and dip-switch
When setting frequency on TX board JP1, put short boot on 2nd & 3rd pin of JP1.
Change the frequency
needed by changing the dip-switch setting. Repeat the previous steps to set frequency.
(Note: set the dip-switch from the 4th digit)
Example：Set channel as 03→(00000011) → Correct setting
- 23 -
7. RECEIVER SETTINGS
7.1 How to Set 607/608/612 Receiver ID Codes
7.1.1 How to Set 607/608 Receiver ID Code
Top slot Æ “1”
Bottom slot Æ “0”
ID DIP-SW
Set the ID codes needed on the decoder board dip-switch. For example: the ID codes set above Æ
10000111.
7.1.2 How to set α612 Receiver ID Code
Please refer Fig. 18 receiver internal parts assembly (Page 17) for ID code 8-position dip-switch to set receiver ID
code.
Top slot Æ“1＂; bottom slot Æ“0＂
Set the ID codes needed on the decoder board dip-switch.
For example: the ID codes → 10010110
（“1” value adds up must to be “4”）
- 24 -
7.2 Receiver RF Channel Setting
There are 68 sets of user-adjustable receiving RF channels that can be set manually via a 8-position dip-switch
located to the right of the receiving RF module.
8-position dip-switch.
Change the receiving RF channel simply by resetting these
For the location of the receiving RF module, please refer to fig. 15, 16, and 18 on page 11,
12, and 14.
Top slot Æ“1＂; bottom slot Æ“0＂
For example：the channel dip-switch set above Æ 00000101, channel 05.
Part Number:BRXN-433
CH.447→ 00101111
CH.448→ 00110000
CH.449→ 00110001
CH.450→ 00110010
CH.451→ 00110011
CH.452→ 00110100
CH.453→ 00110101
CH.454→ 00110110
CH.455→ 00110111
CH.456→ 00111000
CH.457→ 00111001
CH.458→ 00111010
CH.459→ 00111011
CH.460→ 00111100
CH.461→ 00111101
CH.462→ 00111110
CH.463→ 00111111
CH.464→ 01000000
CH.465→ 01000001
CH.466→ 01000010
CH.467→ 01000011
CH.468→ 01000100
CH.424→ 00011000
CH.425→ 00011001
CH.426→ 00011010
CH.427→ 00011011
CH.428→ 00011100
CH.429→ 00011101
CH.430→ 00011110
CH.431→ 00011111
CH.432→ 00100000
CH.433→ 00100001
CH.434→ 00100010
CH.435→ 00100011
CH.436→ 00100100
CH.437→ 00100101
CH.438→ 00100110
CH.439→ 00100111
CH.440→ 00101000
CH.441→ 00101001
CH.442→ 00101010
CH.443→ 00101011
CH.444→ 00101100
CH.445→ 00101101
CH.446→ 00101110
Channel → Dip-Switch Settings
CH.401→ 00000001
CH.402→ 00000010
CH.403→ 00000011
CH.404→ 00000100
CH.405→ 00000101
CH.406→ 00000110
CH.407→ 00000111
CH.408→ 00001000
CH.409→ 00001001
CH.410→ 00001010
CH.411→ 00001011
CH.412→ 00001100
CH.413→ 00001101
CH.414→ 00001110
CH.415→ 00001111
CH.416→ 00010000
CH.417→ 00010001
CH.418→ 00010010
CH.419→ 00010011
CH.420→ 00010100
CH.421→ 00010101
CH.422→ 00010110
CH.423→ 00010111
7.3 Receiver Function Setting
7.3.1 607/608 Receiver Function Setting
7.3.1.1 Set by programming tool
7.3.1.2. Adjust Jumper setting function by decoder board
Receiver function setting:
A. Select any pushbutton or ON/OFF power switch to start the system. The MAIN relay will be activated
when system is started. (After the receiver power is started and emergency stop button is elevated)
B. The MAIN relay auto shutdown time can be set as 3 minutes or depends on customer’s single request.
(Remark 1)
C. When transmitter voltage is low, relays for the receiver MAIN and LV (Remark 1) will be auto shutdown after
one minute.
DIP-SW
JP1
JP2
JP3
JP4
OPEN→JUMP
SHORT→JUMP
AC
FU
SE
(Fig. 12) Alpha 607, 608 models
- 25 -
Jumper Set table:
JP1
Open
Open
JP2
Short
Open
JP3
JP4
Short
Open
Short
in-plant setting (default).
Power key to activate relay MAIN relay (After turning
“on” the transmitter power and pressing the emergency
Stop button)
No auto shutdown time on Main relay
The receiver MAIN will be deactivated after consecutive
5 minutes of standby time.
No auto shutdown time on MAIN and LV relays
After one minute of transmitter LV, the MAIN and LV
relays will be deactivated.
7th AUX: “Normal” pushbutton setting
7th AUX: “Toggle” pushbutton setting
※ Open → no Jumper
Short → put Jumper
Remark 1：The setting of auto shutdown time can be done by manufacturer or distributor. Setting range: 0~30
minutes. (In-plant setting: 5 minutes)
Remark 2：When the transmitter voltage is low, LV relay will be activated and siren or lights will be ON. (one
second of interval)
Remark 3：Every time when you change jumper settings you must first turn the receiver power off and then turn
it back on so that the new settings can be stored in memory.
7.3.2 α612 Receiver Function Setting
7.3.2.1 Set by programming tool
7.3.2.2. Adjust Jumper setting function by decoder board
Receiver function setting:
Jumper Set table:
JP1
Open
Open
JP2
Short
Open
JP3
Short
In-plant setting (default).
Power key to activate relay MAIN relay (After turning
“on” the transmitter power and pressing the
emergency stop button)
No auto shutdown time on Main relay
The receiver MAIN will be deactivated after
consecutive 5 minutes of standby time.
No auto shutdown time on MAIN and LV relays
After one minute of transmitter LV, the MAIN and LV
relays will be deactivated.
※ Open → No jumper
Short → Put Jumper
Remark 1：The setting of auto shutdown time can be done by manufacturer or distributor. Setting range: 0~30
minutes. (In-plant setting: 5 minutes)
Remark 2：When the transmitter voltage is low, LV relay will be activated and siren or lights will be ON. (One
second of interval)
Remark 3：Every time when you change jumper settings you must first turn the receiver power off and then turn
it back on so that the new settings can be stored in memory.
- 26 -
7.3.3 Alpha 612 Models Dip-Switch Function Table
Model
Pushbutton
Dip-Switch Setting
1&2
3&4
5&6
DIP 1
7&8
DIP 2
→ 1
Not Interlocked
→ 0
Interlocked
→ 1
Not Interlocked
→ 0
Interlocked
→ 1
Latching/toggle relay contact
→ 0
Momentary relay contact
→ 1
Not Interlocked
→ 0
Interlocked
→ 1
Latching/toggle relay contact
→ 0
Momentary relay contact
→ 1
Latching/toggle relay contact
→ 0
Momentary relay contact
→ 1
Not Interlocked
→ 0
Interlocked
→ 1
Latching/toggle relay contact
→ 0
Momentary relay contact
→ 1
Latching/toggle relay contact
→ 0
Momentary relay contact
→ 1
Latching/toggle relay contact
→ 0
Momentary relay contact
Description
612A
7&8
9 & 10
DIP 3
DIP2 Set at “1”
DIP 4
DIP 5
DIP4 Set at “1”
612B
10
7&8
DIP 6
DIP4 Set at “1”
DIP 1
DIP 2
DIP4 Set at “1”
612B
DIP 3
DIP4 Set at “1”
DIP 4
612C
→ 1
1&2
nd
(2 speed)
DIP 1
→ 0
Both 1st and 2nd speed contact
relay interlocked when pressed
to 2nd speed
Both 1st and 2nd speed contact
relay activated when pressed to
2nd speed
- 27 -
Both 1st and 2nd speed
contact relays activated
Only 2nd speed contact
relay activated
9
10
DIP 2,3
→ 00
Momentary relay contact
DIP 2,3
→ 01
Latching/toggle relay contact
DIP 2,3
→ 10
Activate the 3rd speed
→ 1
Latching/toggle relay contact
→ 0
Momentary relay contact
DIP 4
→ 1
1&2
nd
(2 speed)
DIP 1
612D
→ 0
---
DIP 2,3,4
→0
→ 1
1&2
nd
(2 speed)
DIP 1
→ 0
612E
7&8
11
Momentary relay contact
Both 1st and 2nd speed contact
relay interlocked when pressed
to 2nd speed
Both 1st and 2nd speed contact
relay activated when pressed to
2nd speed
→ 1
Not Interlocked
→ 0
Interlocked
→ 1
Latching/toggle relay contact
Both 1st and 2nd speed
contact relays activated
Only 2nd speed contact
relay activated
DIP2&3 Must set to
“0” all the time
(In-plant set at “0”)
Both 1st and 2nd speed
contact relays activated
Only 2nd speed contact
relay activated
DIP 2
DIP 3
DIP2 Set at “1”
→ 0
Momentary relay contact
→ 1
Latching/toggle relay contact
→ 0
Momentary relay contact
→ 1
Latching/toggle relay contact
→ 0
Momentary relay contact
DIP 7
612
A/B/C/D/E
12
Both 1st and 2nd speed contact
relay interlocked when pressed
to 2nd speed
Both 1st and 2nd speed contact
relay activated when pressed to
2nd speed
DIP 8
※ In-plant all set at “0”
- 28 -
7.4 Frequency (RF) Channels Table
FREQUENCY
DIP-SWITCH SETTING
CHANNEL
433.075 MHz
433.100 MHz
433.125 MHz
433.150 MHz
433.175 MHz
433.200 MHz
433.225 MHz
433.250 MHz
433.275 MHz
433.300 MHz
433.825 MHz
433.850 MHz
433.875 MHz
433.900 MHz
433.925 MHz
433.950 MHz
433.975 MHz
434.000 MHz
434.025 MHz
434.050 MHz
434.075 MHz
434.100 MHz
434.125 MHz
434.150 MHz
434.175 MHz
434.200 MHz
434.225 MHz
434.250 MHz
434.275 MHz
434.300 MHz
434.325 MHz
434.350 MHz
434.375 MHz
00000001
00000010
00000011
00000100
00000101
00000110
00000111
00001000
00001001
00001010
00001011
00001100
00001101
00001110
00001111
00010000
00010001
00010010
00010011
00010100
00010101
00010110
00010111
00011000
00011001
00011010
00011011
00011100
00011101
00011110
00011111
00100000
00100001
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
- 29 -
FREQUENCY
DIP-SWITCH SETTING
CHANNEL
434.400 MHz
434.425 MHz
434.450 MHz
434.475 MHz
434.500 MHz
434.525 MHz
434.550 MHz
434.575 MHz
434.600 MHz
434.625 MHz
434.650 MHz
434.675 MHz
434.700 MHz
434.725 MHz
434.750 MHz
434.775 MHz
433.325 MHz
433.350 MHz
433.375 MHz
433.400 MHz
433.425 MHz
433.450 MHz
433.475 MHz
433.500 MHz
433.525 MHz
433.550 MHz
433.575 MHz
433.600 MHz
433.625 MHz
433.650 MHz
433.675 MHz
433.700 MHz
433.725 MHz
433.750 MHz
433.775 MHz
00100010
00100011
00100100
00100101
00100110
00100111
00101000
00101001
00101010
00101011
00101100
00101101
00101110
00101111
00110000
00110001
00110010
00110011
00110100
00110101
00110110
00110111
00111000
00111001
00111010
00111011
00111100
00111101
00111110
00111111
01000000
01000001
01000010
01000011
01000100
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
- 30 -
8. TRANSMITTER OPERATION & STATUS
LIGHT
8.1 Transmitter Operating Steps
1. Make sure the two “AA” NiMH rechargeable batteries are installed correctly. Please note the polarity of
the batteries.
2. Status lights_To operate the transmitter, please rotate the power key on the top-left corner clockwise to
“on” position. The status LED (green and red) will be steady “on” for 2 seconds and then “off”. If the
transmitter Status LED displays a red blinking light that is “on” Æ 0.1 second and “off” Æ 1.9 seconds, or
no light at all, this indicates the transmitter with batteries needs to be recharged.
3. When any function pushbutton is depressed, the transmitter Status LED displays a red blinking light that is
“on”Æ 0.1 second and “off”Æ 1.9 seconds.
If the voltage is low, the transmitter Status LED will be
“on”Æ0.1 second and “off”Æ1.9 seconds, this indicates the transmitter with batteries needs to be
recharged. Continuous operation will cause the transmitter battery power exhausting and cannot operate at
all.
4. EMS & Restarting _ In case of an emergency, press down the red emergency stop button (EMS) will
immediately deactivates the transmitter and receiver MAIN relay. The transmitter Status LED will be
blinking “on”Æ0.5 second and “off”Æ0.5 second for 30 seconds (Mode 0).
Then turn off the transmitter
power.
5. The emergency stop button is a right-rotate momentary spring-return type. To turn on the transmitter and
activate the MAIN relay, please elevate the emergency stop button again and rotate the transmitter power
key to “ON” position.
6. Note that the transmitter cannot be hit by outer force, so that malfunction can be prevented.
7. The operating temperature is -10 ~ +50℃. Avoid operating the transmitter in high temperature workshop.
If operating temperature is higher than 50℃,the auto shutdown protection installed inside CPU will shut
down the transmitter and deactivate the MAIN relay.
8. To operation normally, the battery power has to be over 2.2V.
If the voltage is lower than 2.2V, the
system cannot be started and low voltage will be showed until the MAIN is completely shutdown.
9. If the power voltage is lowered than 2.2V when transmitter is operated, the LV code will be “1” and low
voltage status light will be shown.
The transmitter will stop sending signals when voltage is lower than
2.0V.
- 31 -
Power status
light
STOP: press → lock (emergency stop)
STOP: Elevate clockwise → reset (Turn on the transmitter at any time)
8.2 Transmitter Status Light
Type
Status
Solution
LED Indication
Charging
Place transmitter into
charger
Power on when voltage is
low
BATT<2.2V
Setting failed or invalided
Set data by using
JUMPER & dip-switch
without following rules
Red light ON_0.1/OFF_0.1 sec
Setting completed
JP1 or JP2 inserted
Green light ON until power off.
EEPROM ID error
EEPROM ID code does
not match CPU
RF module abnormal
PLL UNLOCK
ID even number error
Setting error
Pushbutton locked
Power on pushbutton Red light ON_1.9/OFF_0.1 sec (until
connected
power off)
Normal power on
BATT>=2.2V and all the
All the lights ON_2 sec
pushbuttons are not
depressed
10
STOP status
STOP button is pressed
Red light ON
Red light flash ON_0.1/OFF_1.9 sec
(until power off)
Red light ON until power off
Red light ON_0.1/OFF_0.1 sec
Red light ON_1/OFF_1 sec
MODE 0: Red light ON_0.5/ OFF_
0.5sec, flash 30sec.
MODE 1: all the lights OFF
11
Low voltage during
operation
BATT<2.2V and press
pushbutton
12
Normal operation
Press pushbutton
- 32 -
Red light flash ON_0.1/OFF_1.9sec
Green light flash ON_0.1/OFF_1.9 sec
9. RECEIVER INSTALLATION
9.1. Preparation for Installation
1. Required Tools for Receiver Installation:
(1) Flat Head Screwdriver (-)
(2) Phillips Head Screwdriver (+)
(3) Multi-Meter
(4) 14mm Wrench x 2
(5) Power Drill withφ10.5mm Drill-Bit
2. Check to ensure that your receiver is not set to the same RF channel and ID code as any other systems
in operation at the same facility or within 300-meter distance.
3.
Prior to installation, make sure that the crane or equipment itself is working properly.
4. Use a multi-meter to check the voltage source available and ensure the receiver voltage setting
matches your power source.
5. Prior to installation, switch off the main power source to the crane or equipment.
9.2 Step By Step Installation
1. For better reception, the location selected should have the antenna visible from all areas where the
transmitter is to be used.
2. The location selected should not be exposed to high levels of electrical noise.
Mounting the receiver
next to an unshielded variable frequency control (inverter) may cause minor interference.
Always
locate the receiver unit as far away from inverter controls as possible.
3. Ensure the selected location has adequate space to accommodate the receiver enclosure.
4. Make sure the receiver unit is in upright position (vertical).
5. The distance between the antenna and the control panel should be as far apart as possible (refer to the
fig. on page 22).
6. If a crane or equipment’s runway is longer than 100 meters, an external antenna should be added.
The Alpha 608 receiver housing has provisions for an external factory installed antenna available as
an option, contact your dealer for price and delivery.
7. Drill a hole on the control panel (10.5mm).
8. Tightened the bolt nuts provided.
9. If the control panel has a plastic surface, extended grounding wire should be used.
10. For system wiring, please refer to the output contact diagrams from page 4.
11. Ensure all wiring is correct and safely secured and all screws are fastened.
- 33 -
2 5 5 mm
4 - O10.5
2 7 8 mm
(Fig. 21) Alpha 604, 607, 608 Models
2 5 5 mm
4 - O10.5
2 7 8 mm
(Fig. 22) Alpha 612 Models
9.3 System Testing
1. Connect the power source to the receiver and test the MAIN relay output by pressing the red emergency
stop button (EMS) and observe that it properly opens and closes the main line disconnect contactor.
2. Test the operation of each function to ensure it corresponds to the transmitter direction labels and/or the
pendant it is replacing.
3. Test the limit switches on the hoist and/or crane and verify they are working properly.
4. If your new remote control is replacing an existing pendant, make sure it is completely disconnected to
prevent unwanted control commands, i.e. snick circuits.
5. If your new remote control is replacing an existing pendant make sure it is stored in a safe location
where it will not interfere with remote operation (get torn off).
- 34 -
9.4 Receiver system Status LED Display
LED status light
FU
SE
Receiver system Status LED Display
Type
Led Indication
Problem and Solution
Constant red light.
EEPROM error – reprogramming required.
Incorrect receiver ID code setting (see note below).
ON → 1.0 second
OFF → 1.0 second
ID code not matched on both the transmitter and
receiver unit, please readjust accordingly.
Dim or no light.
Under-voltage, check the main power-supply.
ON → 2.0 seconds
OFF → 0.1 second
MAIN contact relay jammed or defective.
ON → 0.1 second
OFF → 2.0 seconds
System normal with transmitter pushbutton either in
neutral or in transmitter power “off” position.
ON → 0.1 second
OFF → 0.1second
System normal with transmitter pushbutton in
non-neutral position (pushbutton depressed).
Note: Please refer to section 7.2 on page 22 for correct ID code setting.
- 35 -
9.4.1 Alpha 612 Receiver System Status LED Display
Led Indication
Power LED display
SQ, Status LED display
ON
Normal-voltage
OFF
Under-voltage
ON
Transmitted signals detected
and received
OFF
No transmitting signal detected
BLINK
Relay LED display
Reason
Solution
1.Transmitter standby
Turn on the transmitter
2.Interference
Turn off the transmitter
ON
Normal operation
OFF
Receiver defective
- 36 -
Repair decoder board
10. TROUBLE SHOOTING
Should the operator find the equipment not operating normally, please check the chart below for simple
trouble shooting tips.
Problem
Possible Reason
Solution
Transmitter does
not communicate
with the receiver.
Transmitter and the receiver are
not on the same RF channel
(SQ lamp not lit) or ID code.
Ensure the correct transmitter is
in use. The labels on the receiver
and the transmitter will identify the
RF channel and ID code in use.
Transmitter does
not communicate
with the receiver.
Low or no transmitting power
from the transmitter unit.
Turn “on” the transmitter with
EMS elevated. If the status LED
shows blinking red light or no
light at all, then turn the power
“off” and replace the two alkaline
“AA” batteries.
No power to the
receiver (AC power
indicator on the
receiver unit not lit).
Blown fuse or no input power
connection.
Ensure power input to the receiver
unit is correct. If the power
indicator (AC) is still not lit, please
check the receiver for any open fuse.
Outputs do not
operate correctly.
Receiver configuration is not set
properly or output wiring is
incorrect.
Please refer to section 6 and 7
to ensure receiver is correctly wired
and configured for your application.
Transmitter does
not communicate
with the receiver.
Transmitter is turned on with the
EMS activated (pressed down).
Elevate the EMS first and then
turn the power switch off and
then on again.
- 37 -
11. SYSTEM SPECIFICATION
Transmitter Unit
Frequency Range
Transmitting Range
Hamming Distance
Channel Spacing
Frequency Control
Frequency Drift
Frequency Deviation
Spurious Emission
Transmitting Power
Emission
Antenna Impedance
Enclosure Rating
Source Voltage
Current Drain
Operating Temperature
Dimension (607~608 Models)
(612 Models)
Weight
(607~608 Models)
(612 Models)
433 MHz
100 meters
25KHz
Quartz Crystals
< 5ppm @ -25℃ ~ +75℃
< 1ppm @ 25℃
- 50dB
~1mW
F1D
50 ohms
IP-66
3.0V (“AA” alkaline batteries x 2)
10 ~ 18mA
-25℃ ~ +75℃
172mm x 68mm x 33mm
235mm x 68mm x 30mm
300g (include batteries)
350g (include batteries)
Receiver Unit
Frequency Range
Channel Spacing
Hamming Distance
Frequency Control
Frequency Drift
Frequency Deviation
Sensitivity
Antenna Impedance
Data Decoder Reference
Responding Time
Enclosure Rating
Source Voltage
Power Consumption
Operating Temperature
Output Contact Rating
Dimension (607~608 Models)
(612 Models)
Weight
(607~608 Models)
(612 Models)
433 MHz
25KHz
Synthesizer (PLL)
< 5ppm @ -25℃ ~ +75℃
< 1ppm @ 25℃
-120dBm
50ohms
Quartz Crystals
40ms (Normal)
IP-65 (Alpha 500~560 Models)
IP-66 (Alpha 580 Models)
AC 220V ~ 230V @ 50/60 Hz.
11VA
-25℃ ~ +75℃
250V @ 10A
310mm x 134mm x 72mm
300mm x 236mm x 80mm
2,000g (include output cable)
3,400g (include output cable)
- 38 -
12. PARTS LIST
Transmitter
Part No.
1. Encoder board (Alpha 607A)
Encoder board (Alpha 607B)
Encoder board (Alpha 607AT)
Encoder board (Alpha 607BT)
Encoder board (Alpha 608A)
Encoder board (Alpha 608B)
2. Transmitter enclosure (A607 & Alpha 608)
3. Battery cover
4. 2-step pushbutton
1-step pushbutton
5. Pushbutton rubber fixing holder
6. Pushbutton rubber boot (Alpha 607 & 608)
7. Transmitter shock-absorbing rubber (Alpha 607 & 608)
8. Transmitter vinyl protective cover (Alpha 607 & 608)
9.EMS pushbutton
10. EMS red cap (all models)
11. A600 waist strap
12. Rechargeable battery
13. A600 pushbutton direction label
BEN607A
BEN607B
BEN607AT
BEN607BT
BEN608A
BEN608B
BCT607
BC600
B50001
B50002
BCH608
PRB02
SAR02
VPC02
B50003
EMS01
WS01
RCB01
DL01
Receiver
1. Decoder board (Alpha 607A)
Decoder board (Alpha 607B)
Decoder board (Alpha 607AT)
Decoder board (Alpha 607BT)
Decoder board (Alpha 608A)
Decoder board (Alpha 608B)
2. 433MHz receiver RF module (All models)
3. Receiver enclosure (Alpha 607, 608)
4. Receiver mounting spring (Alpha 607, 608)
5. Regular Output Contact Relay-blue (All Models)
6. Safety MAIN Contact Relay-DC12V (All Models)
7. Transformer (12/24VDC – Alpha 600-608)
Transformer (24VAC – Alpha 600-608)
Transformer (48VAC – Alpha 600-608)
Transformer (110/120VAC – Alpha 600-608)
Transformer (220/230VAC – Alpha 600-608)
Transformer (380VAC – Alpha 600-608)
Transformer (220/230VAC – Alpha 600-608)
8. 2-meter Output Cable with 5 Common Circuits Cable (24C*2m V3.5, Alpha 607, 608)
9. Optional External 433 MHz Antenna (All Models)
- 39 -
BDE607A
BDE607B
BDE607AT
BDE607BT
BDE608A
BDE608B
BRX433
BCR607
RMS600
BDE607BT
BDE608A
T24VDC
T24VAC
T48VAC
T120VAC
T230VAC
T380VAC
T230VAC
OC607
ANT433

---

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