Adeunis RF ARF6141A, ARF18 2 KEYS (78-307-06)

Adeunis RF ARF6141A, ARF18 2 KEYS (78-307-06)
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ARF18
The ARF6141A to ARF6143A
Universal radio remotelow cost remote control enable the
wireless
control of 2 to 24 logic states
control of security to
over several hundred of meters. The security
in transmitting the orders is obtained through an
control some logic
owner’s turning code. The various applications
states at distance
range from the domestic remote control to applications
of autonomous control for industrial or tertiary
equipments. They are available on miniature and ergonomic
cases.
ARF6141A remote control key ring
with 2 keys
• Frequency:
• Control:
• Range:
• Feeding:
• Autonomy:
• Dimensions:
433.9 MHz
2 separate ways
100 m with the ARF4001A receiver
3 V CR1620 lithium battery
18 months for 20 s of transmission / day
55 x 25 x 16 mm
Adeunis RF 38920 CROLLES
Tel. (33) 04 76 92 07 77 - Fax (33) 04 76 08 97 46
Email: [email protected] - http://www.adeunis-rf.com
ARF6142A 4 keys miniature remote control
• Frequency:
• Control:
• Range:
• Feeding:
• Autonomy:
• Dimensions:
ARF6143A miniature remote control
8 keys/24 ways
• Frequency:
• Control:
433.9 MHz
24 separate ways selected
by 3 x 8 “Toggle” keys
• Range:
400 m with the ARF4001A receiver
• Feeding:
3 V CR2430 lithium battery
• Autonomy:
3 years if 20 s transmitting a day
• Dimensions: 110 x 50 x 18 mm
• Using temperature: - 20 / + 70° C
433.9 MHz
4 separate ways
400 m with the ARF4001A receiver
3 V CR2430 lithium battery
3 years for 20 s of transmission / day
110 x 50 x 18 mm
Alternative versions
• ARF6141A: remote control key ring 2 keys
• ARF6142A: miniature remote control 4 keys
• ARF6143A: miniature remote control 8 keys / 24 ways
• ARF4033A: remote control demonstrator
• ARF4033B: auxiliary remote control
• ARF6145A: decoding µ controler for
ARF6141A / ARF 6142A / ARF6143A remote control
• ARF6524A : 2 relays receiver - daughter board version
• ARF6523B : 4 relays receiver - IP65 enclosure
Our local distributor:
DIRECTIONS FOR THE USE OF THE
RECEIVER ARF18
A
PRESENTATION
A.1
A.2
A.3
B
DESCRIPTION
FUNCTIONNING
VISUALISATION
PROGRAMMING
B.1
B.2
B.3
B.4
B.5
B.6
ASSIGNMENT
AN OUTPUT KEY
OBLITERATION OF ALL THE LINKS OF AN OUTPUT
OBLITERATION OF ALL THE LINKS OF A KEY
GENERAL OBLITERATION
VISUALISATION OF ALL THE LINKS OF A KEY
MANUAL CUT OF THE OUTPUTS.
C
OUTPUTS WIRING
D
RECEIVERS CHAINING
E
TECHNICAL SPECIFICATION
JNOd / 0899
Version 1.0
ADEUNIS R.F. 283 rue Louis Néel Parc Technologique Pré Roux F38920 CROLLES
Tél. : +33 (0)4 76 92 01 62 - Fax : +33 (0)4 76 08 97 46
www.adeunis-rf.com
[email protected]
12
1
NOTES
A PRESENTATION
The radio receiver ARF33 runs within the 433 MHzl european band. Its use does
not require a license. It enables to drive up to 8 outputs of the open commutator
type on mode monostable or bistable.
It is meant to decode, after the learning, the frames sent by the remote controls
ARF2114B (2 keys) ARF2115C (4 keys) and ARF2115D (8 keys 24 ways).
The receiver ARF33 is intended for all the self-contained control applications of
the tertiary or industrial equipments.
An Adeunis-designed rolling code protects the transmission of the orders .
A.1
DESCRIPTION
The receiver is equipped with a jack type connector with a 2 mm. peg diameter
(+ in centre) for the feeding.
The feeding, by this connector, must be included within the following range :
9V. < +V < 24V.
The receiver ARF33 can be configured with a choice of two different running
modes :
? ?Monostable mode : the output copies the key status.
? ?Bistable mode : the otput status changes after each press on the key.
KEY
Monostable
bistable
A commutator enables to switch from the regular mode to the programming
mode that is needed to edit the links between a remote control key and a receiver
output. A LED diode points out the programming mode. On this mode a first
push button enables to select the output to assign and a second enables to delete
the links that are already memorised. On the regular mode, this very same button
enables to shut all the activated outputs off.
When more outputs are needed, the decoders can be chained.
2
11
NOTES
A.2
FUNCTIONNING
The decoder ARF33 receives the data transmitted by the remote controls through
the receiver. The order received is compared to orders that are already memorised. If one occurence is found, the corresponding outputs are stimulated either by
the pressing time of the key, or by the next press. The selection of the monostable
or bistable mode is completed for the whole set of the ARF33 decoder outputs.
A.3
VISUALISATION
The receiver ARF33 is equipped with a diode LED as output that displays, on a
regular mode, this output status. On the programming mode this led shows the
output selected.
B
PROGRAMMING
Chaining
1
2
A
B
C
3
4
µC
ARF
2115Z
Feeding
SELECT RAZ
5
6
7
8 GND
IN
OUT
E²PROM
Receiver
PROG
Monost.
Bistable.
Auto/Prog
B.1 ASSIGNMENT OF A KEY TO AN OUTPUT
This programming phase induces a link between a remote control key and
an output.
1)
Switch to the programming mode : the led PROG is lit steadily. The
outputs are turned off.
2)
Select the output by pressing on the push button “select”. A short press
shifts the output of one step, e.g. 2— > 3, and a long press enables to
change the page, e.g. A— > B. The outputs and pages leds follow one
another as “select” is pressed.
3)
Press the remote control key to connect with the selected output 2).
10
3
DECLARATION OF CONFORMITY
The output led winks 5 times then switches off. Release the pressure on
the remote control, the learningof the link is completed.
Go back to the step 1) to operate another learning or switch back to
auto mode.
4)
according to ISO/IEC Guide 22 and EN45014
Notes :
??
It is possible to learn up to 8 keys per output. The attempt to write a 9th
key has no direct impact on the existing links, and results in a winking of
the led PROG.
??
Several outputs of a same ARF33 receiver may be driven by the very same
key provided that these outputs belong to the same page A, B or C.
Learning, in another page, a key previously memorised in a different page
is not valid and induces the led PROG to wink.
R.F.
Configuration example :
Manufacturer’s adress:
ARF2114B
ARF2115D
ARF2115C
Manufacturer’s name:
ADEUNIS
32 Rue des Grives - CIDEX 112A
38920 CROLLES - FRANCE
declare that the product
Product Name:
Product Number(s):
Product options:
ARF18
ARF6141A / ARF6142A / ARF6143A
i
d
a b
f
e
g
A
B
C
k
A
B
C
1 2 3 4 5 6 7 8
Monostable
conforms to the following Product Specifications:
j
h
c
A
B
C
1 2 3 4 5 6 7 8
Monostable
1 2 3 4 5 6 7 8
Bistable
The link (b) is incompatible with the links (a) and (c), because a similar key
drives two outputs from a similar receiver that do not belong to the same page.
The links (e) and (f) coming from a similar key can be programmed because
they head towards two separate receivers.
EMC :
EMC Directive 89/336/EEC
Safety:
Low Voltage Directive 73/23/EEC
Conformity is proven by compliance with the following standards :
EN60950
ETS 300-683
ETS 300-220
Crolles, September 25, 1998
VINCENT Hervé / Quality manager
4
9
E
TECHNICAL SPECIFICATIONS
Temperature range :
Feeding :
Consumption :
-20 / +70°C.
+9V à +24V.
25 mA (Reception) 40 mA (transmission)
Carrier :
Radiance power :
Sensitivity :
Modulation :
433,92 MHz
< 10 mW
2 µV
2-FSK à +/-20 kHz.
B.2
1)
2)
3)
Encoding by random key
4)
References :
ARF18A
ARF4013B
ARF4013C
ARF4033Y
ARF4013Z
5)
6)
OBLITERATION OF ALL THE LINKS OF AN OUTPUT:
This programming phase deletes all the links involved with an output.
Switch to the programming mode : the led PROG is lit steadily. The
outputs are turned off.
Select the output pressing on the push button “select”. A short press
shifts the output of one step, e.g. 2— > 3, and a long press enables to
change the page e.g. A— > B. The outputs and pages leds follow one
another as “select” is pressed.
Press the push button “RAZ” of the ARF33 receiver. The output led is
winking.
Hold the press on the push button “RAZ” until the led switches off after
a fast winking.
Slacken the push button, the links obliteration is completed.
Go back to step 1) to delete the links with another output, or switch back
to the auto mode.
On the figure, above, the links (d) and (e) will be deleted if the output A8 is
selected. (f) and (g) if it is the output B1 of the second receiver.
B.3
OBLITERATION OF ALL THE LINKS OF A KEY :
This programming phase deletes all a receiver links specific to a remote
control key. This operation requires the use of a remote control.
1)
Switch to the programming mode : the led PROG is lit steadily. The
outputs are turned off.
2)
Briefly press on the remote control key to suppress. The assigned output
leds are lit.
3)
Press on the push button “RAZ” until the output leds winks.
4)
Press again on the remote control key to suppress until the leds are
switched off after a fast wink. Slacken the key, it is deleted.
5)
Go back to step 1) to delete other keys, or switch back to the auto mode .
On the figure, above, the links (a) and (c) will be deleted if the remote control
key 2115C is selected, and only the link (e) if the remote control key 2114B is
chosen.
B.4
GENERAL OBLITERATION :
This programming phase deletes all the links of a receiver ARF33.
8
5
1)
2)
3)
4)
Switch to the programming mode : the led PROG is lit steadily. The
outputs are turned off.
Press the push button “RAZ” of the receiver ARF33. The 8 output leds
are winking.
Hold the press on the push button “RAZ” until the leds are switched off
after a fast winking.
Slacken the press button, the whole obliteration of the memory is
completed.
On the figure, above, all the links of (a) and of (e) will be deleted if the first
receiver is chosen.
C
OUTPUTS WIRING
The output commutators are open. The two terminal points are the commutators
and the commutated voltage similar to the card feeding. This commutated voltage
is cut off as the programming mode is launched. It is turned back on as the regular
mode is switched back on.
The maximum output power is of 50 mA.
The relays wiring is completed between two output terminals. The free-wheel
diode is already wired on the card.
+VComm
B.5
VISUALISATION OF ALL THE LINKS OF A KEY :
This phase enables to see all the links of a receiver specific to a remote
control. This operation requires the use of a remote control.
1)
Switch to the programming mode : the led PROG is lit steadily. The
outputs are turned off.
2)
Briefly press on the remote control key. The assigned output leds are lit
for a few seconds.
3)
Go back to step 1) to visualise other keys, or switch back to the auto
mode .
B.6
Output (n)
The interface with an electronic card is obtained as the grounds are connected and
by using a pull-up resistor on the feeding of the interface card.
+V Comm
+ 5V
R
MANUAL CUT OF THE OUTPUTS :
Output (n)
This operation enables to cut all the outputs of a receiver without a remote
control. On the regular mode, press the key RAZ until the active output leds are
switched off.
GND
D
GND
RECEIVERS CHAINING
The receivers ARF18 may be chained one after the other to increase the number
of outputs, or to access the bistable and monostable modes.
The head receiver ARF18 must be equiped with a radio receiver (reference
ARF18A ). The next ones must be receivers of the ARF18B type.
It is possible to connect 10 ARF18B at the most, following a ARF18A.
6
7
Décodeur ARF6145A
2 - Description
1 - Technical data ................................
................................
........1
2 - Description................................
................................
..............1 The ARF18 decoder microcontroller has to be
3 - EEPROM memory................................
................................
.3 associated to an ARF4001 receiver module. Its
4 - User inputs................................
................................
..............3 purpose is to decode the frames emitted by the
4.1
AUTO/PROG [PC1]:................................
.................3 2, 4 and 8-button remote controls of the
4.2
Mode [PD1]: ................................
...............................
4 ARF18 range.
4.3
Selection [PD0]:................................
.........................
4
4.4
RESET [PC0]:................................
............................
4
5 - Outputs ................................
................................
....................
5 On receipt of these encoded frames, it decodes
5.1
Error display PC5................................
.......................
5 them then compares them with those
5.2
Useful outputs PA0 to PA7 and PB0 to PB2 .........6
previously stored in the learning phase. If
5.3
Hold output PB5 ................................
.........................
6
applicable it activates the outputs associated to
this order. There are 24 accessible outputs
arranged in 3 banks.
It manages the different operating modes - the
programming is the man-machine interface.
1 - Technical data
Supply voltage:
5V
Microprocessor:
68HC705C9ACFN
Ref.
Number
Signal
Description
RST/
1
Input
Reset: Active at low level. A logic level 0 on this input causes
initialisation of the microcontroller.
IRQ/
2
Input
Interrupt input
VPP
3
Power
Programming voltage. Connect to VDD, in no case to VSS
NC1
4
PA7
5
Out
Output 8 activated if the frame received and recognized has been
assigned to it
PA6
6
Out
Output 7 activated if the frame received and recognized has been
assigned to it
PA5
7
Out
Output 6 activated if the frame received and recognized has been
assigned to it
PA4
8
Out
Output 5 activated if the frame received and recognized has been
assigned to it
PA3
9
Out
Output 4 activated if the frame received and recognized has been
assigned to it
PA2
10
Out
Output 3 activated if the frame received and recognized has been
assigned to it
PA1
11
Out
Output 2 activated if the frame received and recognized has been
assigned to it
PA0
12
Out
Output 1 activated if the frame received and recognized has been
assigned to it
PB0
13
Out
Output A activated if the frame received and recognized has been
assigned to it
PB1
14
Out
Output B activated if the frame received and recognized has been
© 1999 ADEUNIS RF
Version préliminaire
page 1
Décodeur ARF6145A
assigned to it. Accessible only in monostable mode.
PB2
15
Out
Output C activated if the frame received and recognized has been
assigned to it. Accessible only in monostable mode.
PB3
16
Out
Power command: Output at high state 260 ms after the decoder has
left "learning" mode. This output is used to suppress the power on the
output stages when programming the links. NB: same timing as on
PC3
NC2
17
PB4
18
Output
Unused. To be connected to NC2
PB5
19
Out
Hold: This output supplies an impulse on establishment of a monostable output and on its release.
PB6
20
Input
Serial input of the information emitted by a remote control for
processing by sampling. To be connected to TCAP [41].
PB7
21
Mem
CS mem2: unused
VSS
22
Power
Reference for signals and power supply
NC
23
PC7
24
Mem
CS mem1: output for selection of the memory to be connected to the
CS pin of the EEPROM memory used.
PC6
25
Output
Unused
PC5
26
Out
Error led. Output at low state as soon as an error occurs in a learning
phase.
PC4
27
Out
Validate led. Output at low state as soon as a validate or a delete in
"learning" mode is correctly completed.
PC3
28
Out
Mode led. Output at low state 260 ms after the decoder has entered
"learning" mode. This output is used to light a mode display led.
NB: same timing as on PB3
PC2
29
Output
Unused
PC1
30
Input
Mode input: A high level on this input sets the decoder to Learning
mode. A low level sets it to normal operating mode.
PC0
31
Input
Reset input: In normal mode a high level on this input cuts all the
active outputs. In programming mode a high level on this input
deletes all or part of the programming.
PD0
32
Input
Selection input: scans only in programming mode. Enables the
outputs to be assigned to be scrolled either one after the other or page
by page.
PD1
33
Input
PD2
34
Mem
MISO: to be connected to the EEPROM memory data output
PD3
35
Mem
MOSI: to be connected to the EEPROM memory data input
PD4
36
Mem
SCK: to be connected to the EEPROM memory clock signal
PD5
37
Input
© 1999 ADEUNIS RF
Version préliminaire
page 2
Décodeur ARF6145A
TCMP
38
Out
Unused
NC3
39
PD7
40
Output
Unused. To be connected to NC3
TCAP
41
Input
Input to collect information emitted by a remote control for decoding.
To be connected to PB6 [20].
OSC2
42
4MHz quartz connection. Not connected if an external clock is used.
OSC1
43
Connection of a 4MHz quartz or an external CMOS clock at this
same frequency.
VDD
44
Power
+5V power supply
3 - EEPROM memory
It is imperative to associate an EEPROM
memory to the microcontroller. This memory
is used for learning the remote control button –
output associations. A button is identified by
3 bytes. Each output can be activated by a
maximum of 8 buttons. A minimum of
768 bytes (24 x (3+1) x 8) i.e. 6kbits is
therefore required. The decoder memory driver
is written to operate with an 8 kbit microwire
EEPROM with the following wiring:
PD4 [36]
PD3 [35]
PD2 [34]
CS
VCC
SCK
DI
PC7 [24]
DO
GND
Figure 1 : EEPROM wiring
4 - User inputs
4.1
AUTO/PROG [PC1]:
A low level on this input sets the decoder to programming mode. This is link edit mode. Operation in
this mode is described by the status controller below:
© 1999 ADEUNIS RF
Version préliminaire
page 3
Décodeur ARF6145A
PC0=1 or time-out 3 s.
Radio frame receipt
PD1=0
PD0 =1
Radio frame receipt
Initialisation,standby
or
PC0 =1
for 3.5s
Selection :
Output n+1
Output n+8
Display
PC0 =1
PD0 =1
Hold
frame
PC0 =1
for 3.5s
Delete all:
All the leds flash
Delete by output:
Correspondingled
flashes
PC0 =1
for 2.5s
PC0 =1
for 3.5s
PC0 =1
for 2.5 s
Link creation:
Correspondingled
flashes
Hold
frame
for 2.5 s
Delete by input:
Correspondingled
flashes
Hold
frame
for 2.5 s
Return init.
time-out 3 s.
or
Result:
Red led
Green led
Figure 2: Status controller in programming mode
A high level on this input sets the decoder to automatic mode. Operation of the decoder then depends on
the learning operations performed in programming mode.
4.2
Mode [PD1]:
This input configures the operating mode of all the outputs. At low level the outputs are in bistable
mode - they change state each time an associated button is activated. In this mode the outputs are stored
in case of a power failure or if programming is performed. They are restored when the power supply
returns or when returning to auto mode. At high level the outputs are in
monostable mode - they are
activated so long as an associated button is activated.
4.3
Selection [PD0]:
In programming mode a high level on this input of a duration comprised between 120 ms and s1.6
causes a switch from one output to the next output; e.g. from 4A to 5A or from 8B to 1C. A long high
level, greater than 1.6 s, in programming mode goes on to the next page, e.g. from 7A to 7B.
In normal mode this input has no effect.
4.4
RESET [PC0]:
In programming mode, a high level on this input of a duration comprised between 120 ms and s6.1
causes the current selection to be deleted without any action on the EEPROM memory.
© 1999 ADEUNIS RF
Version préliminaire
page 4
Décodeur ARF6145A
A high level of a duration greater than 6.2 s causes a delete in the memory. If an input was selected
deletion of all the links proper to this input will take place, if no input was selected deletion of the entire
EEPROM memory will be performed.
Reset
Output(s)
Delete
Validate
3.5 s
2.4 s
3s
0.3 s
Figure 3: timing diagram - total deletion or delete by output
N.B.: if the output was selected in programming mode by a short press on a remote control button, a
high level on the RESET input causes flashing of the output involved during which the radio frame has
to be emitted to delete all the links proper to this button.
Reset
Output(s)
Radio frame
Validate
3.5 s
2.8 s
3.5 s
3s
Figure 4: timing diagram by input
In normal mode a high level on this input of a duration greater than 120 ms cuts all the active outputs,
without any action on the EEPROM memory.
5 - Outputs
5.1
Error display PC5
This output has the same timing as the validate output used to display the end of a learning operation.
The causes of error are as follows:
ü Assignment of a button to outputs on different pages from one another.
ü Assignment of more than 8 buttons to the same output.
ü When the memory is empty in auto mode.
© 1999 ADEUNIS RF
Version préliminaire
page 5
Décodeur ARF6145A
5.2 Useful outputs PA0 to PA7 and PB0 to PB2
PA0 to PA7 are the eight outputs directly usable to control a relay, a transistor etc. Several of them can
be active at the same time.
PB0 to PB2 are three outputs able to be used to perform switching to 24 outputs. Only one of these three
outputs is active at any one time. In bistable mode only the output PB0 is activated.
The wiring example opposite also uses the outputPB3 for disabling the outputs in programming mode.
(OE : output enable)
PA0 [12]
PA1 [11]
PA2 [10]
PA3 [9]
PA4 [8]
PA5 [7]
PA6 [6]
PB2 PB1 PB0 PA7 [5]
[15] [14] [13] PB3 [16]
A1
A2
A3
…
A7
1
A8
2
B1
3
B2
4
B3
5
…
6
B7
7
B8
8
C1
OE
C2
C3
…
C7
A B C C8
Figure 5 : Wiring - 24 outputs
5.3 Hold output PB5
Like the signal PB3 above, there exists a complementary signal for management of the outputs. The
signal PB5 supplies an impulse of 2.5 µs on occurrence and disappearance of the hold pattern in a
radio frame. This output is of no interest other than in
monostable mode.
© 1999 ADEUNIS RF
Version préliminaire
page 6
Décodeur ARF6145A
Radio frame
P+S+ data
Hold pattern
Output(s)
PB5
t A = 13 µs
t B = 2.5µs
t O = 10 ms
350 ms
tA
tB
tO
tA
tB
Figure 6: PB5 timing
N.B. The time of 350 ms is the time for processing the received frame and for searching for an
occurrence in the EEPROM memory.
© 1999 ADEUNIS RF
Version préliminaire
page 7
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