1442 RF Remote Control
Transcript of 1442 RF Remote Control
RF Remote Control - 4 Channels Sunrom Part# 1442
Control 4 relays through the RF keypad with range of around 100 meters. Board needs 12V DC for operation and the on board relays are capable to switch on DC and well as AC mains load like light and fan.
User's Manual
Doc Version: 1
30-Sep-16
A quality product, proudly made in India by
Electronics http://www.sunrom.com/m/1442
1442 RF Remote Control - 4 Channels
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Table of Contents
Introduction .................................................................................................................................... 3
Secure Design .................................................................................................................................. 4
Features .......................................................................................................................................... 4
Applications .................................................................................................................................... 5
Specifications .................................................................................................................................. 5
Block Diagram ................................................................................................................................ 3
Store Transmitter IDs through switch ............................................................................................ 6
Setting a unique ID for keypad transmitter .................................................................................... 6
Board Schematic ..............................................................................................................................7
Relay Output ................................................................................................................................... 8
Serial Output ................................................................................................................................... 9
Output Jumper Settings.................................................................................................................10
Product Dimensions ...................................................................................................................... 11
Support .......................................................................................................................................... 12
Disclaimer ...................................................................................................................................... 12
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Introduction
Useful in developing RF remote control applications. This board is very flexible to use as it has different type of outputs like toggle, momentary and separate switch outputs. Due to its secure protocol type reliable RF remote control or security access control applications can be developed easily.
Block Diagram
The remote control transmitter transmits 16 bit unique ID + 4 bit data containing value of which key is pressed on 433 MHz frequency..
The same data is received by a common type ASK type 433 MHz receiver module. The data is fed to Decoder IC. It looks up the ID in already stored list, if found, then it outputs its data serially at 9600 baud rate and controls different type of output based on which key was pressed.
There is a switch on board which can put the IC in store mode where it will listen to transmitter and when a key is pressed on it, it stores the ID of transmitter for future valid access.
Decoder IC for Secure Type Transmitters
433 Mhz ASK
RF Receiver
4 bit Keypress Data 16 bit Transmitter ID
Different type of outputs
4x Momentary
4x Toggle
2x Output having
Serial Data out at 9600 bps
of Valid
Transmitter IDs
Protocol
Decoder
Transmitter ID List
TXID#1
TXID#2
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Secure Design
We call this design as “Secure type” means that each transmitter can be set a unique ID like a random password. Whenever the transmitter is operating it sends ID first then the data part. The data part can contain bits of information like which key is pressed.
To implement a secure remote application where only particular transmitter has to be acted upon by the receiver it is required by receiver/decoder to store the transmitter ID before it stars responding to particular transmitter.
The receiver part decoder has to store the ID of the transmitter in its internal memory and compare each ID with received packet before acting on the data from transmitter. Due to this approach very secure, reliable remote control applications can be made. Since decoder will respond to transmitters previously stores in its memory.
Let’s consider an example of what secure means here. In an application we want to implement a remote control for Main Gate opening. In this case each person has one remote transmitter with them. When a person who is allowed access press a switch, the decoder first looks in its internal memory if that ID is already pre-stored then only it acts on the data else ignores it. That means if there are 10 transmitters working, each IDs has to be pre-stored in the IC for it to allow access. If the transmitter ID is not already known to receiver then it is ignored. That way it is very secure type of access control implementation.
While designing this secure transmitter, many problems in existing remote control systems are considered and resolved in its protocol. Like multiple transmitters working in same premises without false trigger of other ones and unauthorized access.
Features
• Secure RF remote control • Supports up to 20 Transmitters by storing their IDs in its internal memory with on board
switch • Responds to only transmitters who’s ID are stored in its internal memory previously • Status LED shows different modes of operation • Variety of output types • 4x Toggle Output • 4x Momentary Outputs • 2x Output with separate ON/OFF switches
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Applications
• RF Remote control • Access control • Identity discrimination • IT home appliance control • Smart house products • Security Systems • Car Garage Door Opener • Front Gate Opener
Specifications
Parameter Value Working Voltage 12V DC regulated power supply Current Consumption 250 mA max with all relays on Frequency of Operation 433 Mhz Serial Baud rate 9600 bps for debugging transmitters Baud rate format 8-N-1; 1 Start bit, 8 Data bits, 1 Stop Bits, No Parity RF Bit rate 10 kbps RF Power Output 0 dbm RF range 100 meters On Board controller PIC16F628A RF Encoder Chipset PT2262
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Store Transmitter IDs through switch
The board needs that the transmitter IDs to be stored in its internal memory before it can decode or respond to particular transmitter. Each transmitter has 16 bit ID which always has to be known by IC before it responds to it in future. That way it is secure method of remote control allowing only known transmitters to be responded.
The switch can be used to enter new transmitters into IC’s memory or clear all IDs in memory.
Store Transmitter IDs in memory
• Brief press of switch will put the IC in listening mode • Status LED blinks every second • Now press a transmitter key for 5 second for which you want to store its ID • When it has been stored the status LED becomes off and normal operation starts • Repeat the same for as many transmitters you want to enter in its memory. You can do
up to 20 IDs after which the IC starts again from zero memory location like First In-Last Out method.
Clear all transmitter IDs in memory
Long press of 10 seconds clears all 20 Transmitter IDs in its internal memory. LED blinks very fast during this time and when it goes off it means the internal memory is cleared of all transmitter IDs.
Status LED
The LED has a status LED which has various meaning. The IC uses PWM method to control LED brightness.
Behavior Status
Glowing slowly like breathing action
Idle listening condition
Blinks fast Memory clear mode on SW press for 10 seconds Blink every second Listening to new Transmitter IDs when SW is pressed. When new
transmitter is found and stored, it goes back to idle breathing action.
Setting a unique ID for keypad transmitter
The RF keypad transmitter uses PT2262 IC for encoding. The decoding is handled by board microcontroller. PT2262 supports 8 address pins which can either be floating (default supplied) or any random address pins shorted to ground or VCC to create a unique ID for it. This is just like your unique password. You can open the transmitter and short address pins at random to create a unique ID. Now only when receiver has stored this unique transmitter it will respond.
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Board Schematic
Here is a diagram for 4 channel RF remote control. You can see the power section which outputs 12V and 5V. The 12V goes to Relays + ULN2003 which is a transistor array. The 5V of power goes microcontroller and RF receiver.
The type of output can be selected by jumpers. It can be toggle, momentary or separate switch for on and off. LEDs indicate relay if it on or off. Using these relays you can switch on or off even mains operated appliances.
TitleCode RevDate: Sheet of
1442 14 CH RF Remote
Sunrom Technologies http://www.sunrom.com
1 1Thursday , Nov ember 19, 2015
OUT4_TOGOUT3_TOG
R11K
OUT2_SEPOUT1_SEP
12V
OUT1_MOM
OUT1_TOG
OUT1_SEP12V
OUT2_MOM
OUT2_TOG
OUT2_SEP
OUT3_MOM
OUT3_TOG
R21K
12V
D2LED
OUT4_MOM
R31K
12V
D3LED
OUT4_TOG
R41K
12V
D4LED
J1 JUMPER2P
STORE
STATUS
ANT
J2 JUMPER2P
J3 JUMPER2P
LS212V Relay
35
412
CN2PBT3
J4 JUMPER2P
OUT2J5 JUMPER2P
J6 JUMPER2P
LS312V Relay
35
412
CN4PBT3
J7 JUMPER2P
J8 JUMPER2P
J9 JUMPER2P
J10 JUMPER2P
LS412V Relay
35
412
CN5PBT3
VCC
12V
OUT1
12V
U2RF-RX
1234
12V
OUT4
12V
OUT3
D6M7
U4CONTROLLER
GND5
VCC14
N.C.3N.C.
4
OUT2_SEP2
OUT2_TOG16
OUT2_MOM11OUT1_MOM10
OUT1_TOG15
OUT1_SEP1
RF_IN6
TXID_STORE_SW 7
TX_OUT8
STATUS_LED9
OUT4_MOM13
OUT4_TOG18
OUT3_MOM 12
OUT3_TOG17
VCC
C1100n
U1RF Receiv er
AN
T1
GN
D2
GN
D3
VC
C(5
V)
4
VC
C(5
V)
5
DA
TA
6
DA
TA
7
GN
D8ANT
E1ANTENNA - 17cm Wire
VCC
D5LED
SW1SW
VCC
R510K
R6470R
U3ULN2003A
1B1
2B2
3B3
4B4
5B5
6B6
7B7
1C16
2C15
3C14
4C13
5C12
6C11
7C10
COM9
GN
D8
OUT2
OUT1
OUT4
LS112V Relay
35
412
CN1PBT3
12V
CN3SIP2
12
C3100n
OUT1OUT2OUT3OUT4
OUT1_MOMOUT2_MOMOUT3_MOM
CN6DC Socket
OUT4_MOM
IN OUTGND
U578M05
1 32
C4100n
+ C2100uF 35V
VCC
OUT1_TOGOUT2_TOG
D1LED
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Relay Output
Relay can control any devices just like a switch contact. Its contact is isolated from driving circuit. Relay contact usually drive high AC voltage like Light and Fans while the contact is at low voltage like 12V DC. Relay provides isolation between low and high voltage as well as allows the low voltage circuit to control any high voltage load. So it's very essential when operating loads like lights and fan in a microcontroller system.
For example, When you want to switch on light when relay comes on, then the light has to be powered through C and NO contacts. In this case NC will not be used.
Relay used on board has contact rating of 7A at 250VAC max.
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Serial Output
On the board you will find a 2 pin header marked as TX-OUTPUT and GND. This header can output data for debug purpose to view address and data of incoming transmitters. You can use a USB-TTL adapter to connect the header to PC having terminal software. The baud rate of data is 9600 (8-N-1) at 5V level.
Data Output Format: 11 bytes per packet
Address ASCII Data ASCII End of Line 8 bytes 2 bytes 0x0D HEX
11 bytes packet
Below is typical output from the board for each key press. As you see the address for it remains same while the data changes as per key press.
If you wish to interface the board with RS232 level like a PC serial port or any other device you need a level convertor such as MAX232. Do not connect the TX-OUT pin to PC serial port directly, as it is TTL level and not RS232 level. It's better to use a USB-TTL adapter.
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Output Jumper Settings
Jumper Channel X is 1-4 - Each channel should only have 1 jumper at any position below MOM Momentary Mode - Putting channel jumper to MOM would make the output relay
behave in momentary mode. Means pressing key will ON the relay and letting go switch will switch off the relay. Momentary means the output remains high as long a key is pressed on remote. This type of output is very useful in crane, door and gate opening application.
TOG Toggle Mode - Putting channel jumper to TOG mode would make the channel toggle between ON and OFF at every new key press. Toggle type output means state of output changes only on new key press. Like light ON/OFF application. Where pressing a switch turns on light and pressing same switch again turn off light.
SEP This mode is application for channel 1 and 2. In this mode remove jumpers from channel 3 and 4. The relay 1 will be control by two switches. One for ON and another one for OFF. Same for channel 2. So each relay make uses of 2 switches.
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Product Dimensions
Board Dimensions in mm
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Support
Sunrom Electronics offers free technical support (www.sunrom.com/contact) for customers, until the end of the product’s lifetime, so if something goes wrong, we’re ready and willing to help! Technical Support is available by email only and scope is limited to problem faced during use of the use of product and does not cover end user programming and hardware troubleshooting. Each product passes through strict quality checks before it reaches you. So if something is not working out right, the first thing to doubt is the connections or programming of your hardware.
Disclaimer
Sunrom Electronics assumes no responsibility or liability for any errors or inaccuracies that may appear in the present document. Specification and information contained in this document are subject to change at any time without notice.
Copyright © 2016 Sunrom Electronics. All rights reserved.