HOLTEK HT6014

312 Series of Encoders
Features
·
·
·
·
Operating voltage: 2.4V~12V
Low power and high noise immunity CMOS
technology
Low standby current
Minimum transmission word
- Four words for TE trigger
- One word for Data trigger
·
·
·
·
Built-in oscillator needs only 5% resistor
Easy interface with an RF or an infrared
transmission medium
Minimal external components
Package information: refer to Selection
Table
Applications
·
·
·
·
Burglar alarm system
Smoke and fire alarm system
Garage door controllers
Car alarm system
·
·
·
Security system
Cordless telephones
Other remote control systems
General Description
The 312 encoders are a series of CMOS LSIs for
remote control system applications. They are capable of encoding 12 bits of information which
consists of N address bits and 12-N data bits.
Each address/data input is externally trinary
programmable if bonded out. They are otherwise
set floating internally. Various packages of the
3 12 encoders offer flexible combinations of
programmable address/data which meet various applications. The programmable address/data is transmitted together with the header
bits via an RF or an infrared transmission medium
upon receipt of a trigger signal. A TE (HT6010) or
a DATA (HT6012/HT6014) trigger can be selectedforapplicationflexibility.
Selection Table
Function Address Address/
No.
Data No.
Part No.
Data
No.
Oscillator
Trigger
LED
Indicator
Package
HT6010
8
4
0
RC oscillator
TE
No
18/20 DIP
20 SOP
HT6012
10
0
2
RC oscillator
D10~D11
Yes
18 DIP/20 SOP
HT6014
8
0
4
RC oscillator
D8~D11
Yes
18 DIP/20 SOP
Note: Address/Data represents addressable pins or data according to the requirements of decoders.
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312 Series of Encoders
Block Diagram
TE trigger
HT6010
O S C 2
O S C 1
O s c illa to r
¸ 3 D iv id e r
T E
A 0
A 7
1 2
T r a n s m is s io n
G a te C ir c u it
A D 8
¸ 1 2 C o u n te r
a n d 1 o f 1 2
D e c o d e rs
D a ta S e le c t
a n d B u ffe r
D O U T
S y n c .
C ir c u it
T r in a r y
D e te c to r
A D 1 1
V D D
V S S
DATA trigger
HT6012/HT6014
O S C 2
O S C 1
O s c illa to r
A d d re s s
1 2
T r a n s m is s io n
G a te C ir c u it
D a ta
¸ 3 D iv id e r
¸ 1 2 C o u n te r
a n d 1 o f 1 2
D e c o d e rs
T r in a r y
D e te c to r
D a ta S e le c t
a n d B u ffe r
D O U T
S y n c .
C ir c u it
L E D
C ir c u it
V D D
V S S
L E D
Note: The address/data pins are available in various combinations (refer to the address/data table).
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312 Series of Encoders
Pin Assignment
T E tr ig g e r ty p e
8 -A d d re s s
4 -A d d r e s s /D a ta
8 -A d d re s s
4 -A d d r e s s /D a ta
N C
1
2 0
N C
A 0
1
1 8
V D D
A 0
2
1 9
V D D
A 1
2
1 7
D O U T
A 1
3
1 8
D O U T
A 2
3
1 6
O S C 2
A 2
4
1 7
O S C 2
A 3
4
1 5
O S C 1
A 3
5
1 6
O S C 1
A 4
5
1 4
T E
A 4
6
1 5
T E
A 5
6
1 3
A D 1 1
A 5
7
1 4
A D 1 1
A 6
7
1 2
A D 1 0
A 6
8
1 3
A D 1 0
A 7
8
1 1
A D 9
A 7
9
1 2
A D 9
V S S
9
1 0
A D 8
V S S
1 0
1 1
A D 8
H T 6 0 1 0
1 8 D IP
D A T A
H T 6 0 1 0
2 0 D IP /S O P
tr ig g e r ty p e
1 0 -A d d re s s
2 -D a ta
1 0 -A d d re s s
2 -D a ta
8 -A d d re s s
4 -D a ta
N C
1
2 0
N C
A 0
1
1 8
V D D
A 0
2
1 9
V D D
A 0
1
1 8
V D D
A 1
2
1 7
D O U T
A 1
3
1 8
D O U T
A 1
2
1 7
D O U T
A 2
3
1 6
O S C 2
A 2
4
1 7
O S C 2
A 2
3
1 6
O S C 2
A 3
4
1 5
O S C 1
A 3
5
1 6
O S C 1
A 3
4
1 5
O S C 1
A 4
5
1 4
L E D
A 4
6
1 5
L E D
A 4
5
1 4
L E D
A 5
6
1 3
D 1 1
A 5
7
1 4
D 1 1
A 5
6
1 3
D 1 1
A 6
7
1 2
D 1 0
A 6
8
1 3
D 1 0
A 6
7
1 2
D 1 0
A 7
8
1 1
A 9
A 7
9
1 2
A 9
A 7
8
1 1
D 9
V S S
9
1 0
A 8
V S S
1 0
1 1
A 8
V S S
9
1 0
D 8
H T 6 0 1 2
1 8 D IP
H T 6 0 1 2
2 0 S O P
H T 6 0 1 4
1 8 D IP
8 -A d d re s s
4 -D a ta
N C
1
2 0
N C
A 0
2
1 9
V D D
A 1
3
1 8
D O U T
A 2
4
1 7
O S C 2
A 3
5
1 6
O S C 1
A 4
6
1 5
L E D
A 5
7
1 4
D 1 1
A 6
8
1 3
D 1 0
A 7
9
1 2
D 9
1 0
1 1
D 8
V S S
H T 6 0 1 4
2 0 S O P
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312 Series of Encoders
Pin Description
Pin Name
Internal
Connection
I/O
Description
A0~A9
I
TRANSMISSION Input pins for address A0~A9 setting
GATE
They can be externally set to VDD or VSS or left open.
AD8~AD11
I
TRANSMISSION Input pins for address/data (AD8~AD11) setting
GATE
They can be externally set to VDD or VSS or left open.
D8~D11
I
CMOS IN
Pull-high
DOUT
O
CMOS OUT
Encoder data serial transmission output
LED
O
NMOS OUT
Transmission enable indicator, active low
TE
I
CMOS IN
Pull-high
Transmission enable, active low (see Note)
OSC1
I
OSCILLATOR
Oscillator input pin
OSC2
O
OSCILLATOR
Oscillator output pin
VSS
¾
¾
Negative power supply, ground
VDD
¾
¾
Positive power supply
Input pins for data (D8~D11) setting and transmission enable (active low)
They can be externally set to VSS or left open (see Note).
Note: D8~D11 are data input and transmission enable pins of the HT6012/HT6014.
TE is the transmission enable pin of the HT6010.
Approximate internal connections
T R A N S M IS S IO N
G A T E
C M O S IN
P u ll- h ig h
C M O S O U T
N M O S O U T
O S C IL L A T O R
E N
O S C 1
O S C 2
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312 Series of Encoders
Absolute Maximum Ratings
Supply Voltage...............................-0.3V to 13V
Storage Temperature.................-50°C to 125°C
Input Voltage....................VSS-0.3 to VDD+0.3V
Operating Temperature ..............-20°C to 75°C
Note: These are stress ratings only. Stresses exceeding the range specified under ²Absolute Maximum Ratings² may cause substantial damage to the device. Functional operation of this device
at other conditions beyond those listed in the specification is not implied and prolonged exposure to extreme conditions may affect device reliability.
Electrical Characteristics
Symbol
Parameter
Ta=25°C
Test Conditions
VDD
Conditions
¾
¾
VDD
Operating Voltage
ISTB
Standby Current
IDD
Operating Current
ILED
LED Sink Current
IDOUT
Output Drive Current
VIH
²H² Input Voltage
¾
VIL
²L² Input Voltage
¾
fOSC
Oscillator Frequency
5V
RTE
TE Pull-high Resistance
RDATA
D8~D11 Pull-high
Resistance
3V
12V
Oscillator stops
Min.
Typ.
Max.
Unit
2.4
5
12
V
¾
0.1
1
mA
¾
2
4
mA
¾
250
500
mA
12V
No load
fOSC=3kHz
¾
600
1200
mA
5V
VLED=0.5V
1.5
3
¾
mA
5V
VOH=0.9VDD (Source)
-0.6
-1.2
¾
mA
5V
VOL=0.1VDD (Sink)
0.6
1.2
¾
mA
¾
0.8VDD
¾
VDD
V
¾
0
¾
0.2VDD
V
ROSC=1MW
¾
3
¾
kHz
5V
VTE=0V
¾
1.5
3
MW
5V
VDATA=0V
¾
1.5
3
MW
3V
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312 Series of Encoders
Functional Description
Operation
The 312 series of encoders begin with a four (HT6010) or a one (HT6012/HT6014) word transmission
cycle upon receipt of a transmission enable (TE for the HT6010 or D8~D11 for the HT6012/HT6014, active low). This cycle will repeat itself as long as the transmission enable (TE or D8~D11) is held low.
Once the transmission enable returns high the encoder output completes its final cycle and then stops
as shown below.
T E o r
D 8 ~ D 1 1
< 1 w o rd
E n c o d e r
D a ta O u t
T r a n s m itte d
C o n tin u o u s ly
1 o r 4 w o rd s
1 o r 4
w o rd s
Transmission timing
Information word
An information word is composed of four periods as shown:
1 /6 b it s y n c . p e r io d
p ilo t p e r io d ( 6 b its )
a d d r e s s c o d e p e r io d
d a ta c o d e
p e r io d
Composition of information
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312 Series of Encoders
Address/data waveform
Each programmable address/data pin can be externally set to one of the following three logic states:
fO
S C
"O n e "
"Z e ro "
"O p e n "
A d d r e s s /D a ta B it
Address/Data bit waveform
The ²Open² state data input is interpreted as logic high by the decoder since its output has only two
states.
Address/data programming (preset)
The status of each address/data pin can be individually preset to a logic ²high², ²low², or ²floating². If
a transmission enable signal is applied, the encoder scans and transmits the status of the 12 bits of
address/data serially in the order A0 to AD11 for the HT6010 and A0 to D11 for the HT6012/HT6014.
If the trigger signal is not applied, the chip only consumes a standby current which is less than 1mA
(for VDD=5V).
The address pins are usually preset so as to transmit data codes with their own particular security codes
by the DIP switches or PCB wiring, while data is selected using push button or electronic switches.
Address/Data sequence
The following table provides the position of the address/data sequence for various models of the 312
series encoders. A correct device should be selected according to the requirements of the individual
address and data.
Part No.
Address/Data Bits
0
1
2
3
4
5
6
7
8
9
HT6010
A0
A1
A2
A3
A4
A5
A6
A7
AD8
AD9
HT6012
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
D10
D11
HT6014
A0
A1
A2
A3
A4
A5
A6
A7
D8
D9
D10
D11
7
10
11
AD10 AD11
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312 Series of Encoders
Transmission enable
For the TE trigger type of encoders, transmission is enabled by applying a low signal to the TE pin.
But for the Data trigger type, it is enabled by applying a low signal to one of the data pins D8~D11.
Flowchart
P o w e r o n
S ta n d b y m o d e
N o
T r a n s m is s io n
e n a b le d ?
Y e s
C o d e w o rd
tr a n s m itte d
c o n tin u o u s ly
N o
T r a n s m is s io n
s till e n a b le d ?
Y e s
C o d e w o rd
tr a n s m itte d
c o n tin u o u s ly
Note: D8~D11 are transmission enable of the HT6012/HT6014.
TE is the transmission enable of the HT6010.
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312 Series of Encoders
Oscillator frequency vs supply voltage
fO S C
(S c a le )
R
(W )
O S C
7 .0 0
4 7 0 k
5 1 0 k
6 .0 0
5 6 0 k
6 2 0 k
5 .0 0
6 8 0 k
7 5 0 k
4 .0 0
8 2 0 k
9 1 0 k
1 .0 M
(3 k H z )3 .0 0
1 .2 M
1 .5 M
2 .0 0
2 .0 M
1 .0 0
2
3
4
5
6
7
8
9
1 0
1 1
1 2
1 3
V
D D
(V D C )
The recommended oscillator frequency is fOSCD (decoder) @ 33 fOSCE (encoder)
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312 Series of Encoders
Application Circuits
T r a n s m itte r C ir c u it
T r a n s m itte r C ir c u it
V
1
V D D
1 8
1
A 0
V D D
1 8
A 1
D O U T
1 7
2
A 1
D O U T
1 7
A 2
O S C 2 1 6
3
A 2
O S C 2 1 6
4
A 3
O S C 1 1 5
A 0
2
3
V
D D
R
O S C
4
A 3
O S C 1 1 5
5
A 4
T E
1 4
5
A 4
L E D
6
1 4
A D 1 1 1 3
6
A 5
D 1 1 1 3
A 6
A D 1 0 1 2
7
A 6
D 1 0 1 2
8
A 7
A D 9 1 1
8
A 7
A 9 1 1
V S S
A D 8 1 0
9
V S S
A 8 1 0
9
A 5
7
H T 6 0 1 0
R
D D
O S C
R
H T 6 0 1 2
T r a n s m itte r C ir c u it
V
1
A 0
V D D
1 8
2
A 1
D O U T
1 7
3
A 2
O S C 2 1 6
4
A 3
O S C 1 1 5
5
A 4
L E D
6
A 5
D 1 1 1 3
7
A 6
D 1 0 1 2
8
A 7
D 9 1 1
9
V S S
D 8 1 0
1 4
R
D D
O S C
R
H T 6 0 1 4
Note: Typical infrared diode: EL-1L2 (KODENSHI CORP.)
Typical RF transmitter: JR-220 (JUWA CORP.)
TX-99 (MING MICROSYSTEM, U.S.A.)
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312 Series of Encoders
Holtek Semiconductor Inc. (Headquarters)
No.3 Creation Rd. II, Science-based Industrial Park, Hsinchu, Taiwan, R.O.C.
Tel: 886-3-563-1999
Fax: 886-3-563-1189
Holtek Semiconductor Inc. (Taipei Office)
5F, No.576, Sec.7 Chung Hsiao E. Rd., Taipei, Taiwan, R.O.C.
Tel: 886-2-2782-9635
Fax: 886-2-2782-9636
Fax: 886-2-2782-7128 (International sales hotline)
Holtek Semiconductor (Hong Kong) Ltd.
RM.711, Tower 2, Cheung Sha Wan Plaza, 833 Cheung Sha Wan Rd., Kowloon, Hong Kong
Tel: 852-2-745-8288
Fax: 852-2-742-8657
Copyright Ó 1999 by HOLTEK SEMICONDUCTOR INC.
The information appearing in this Data Sheet is believed to be accurate at the time of publication. However, Holtek
assumes no responsibility arising from the use of the specifications described. The applications mentioned herein are
used solely for the purpose of illustration and Holtek makes no warranty or representation that such applications
will be suitable without further modification, nor recommends the use of its products for application that may present a risk to human life due to malfunction or otherwise. Holtek reserves the right to alter its products without prior
notification. For the most up-to-date information, please visit our web site at http://www.holtek.com.tw.
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December 13, 1999