HT6P20X Series
2
24
OTP Encoder
Block Diagram
Note: Address/Data numbers are available in various combinations, refer to the functional description.
Rev. 1.40
1
June 20, 2003
Features
Operating voltage: 2V~12V
Low power consumption
Built-in oscillator needs only 5% resistor
0/2/4/8 data selectable
2
24
maximum address and data codes
Easy interface with an RF or IR medium
One time programmable process
Data active: D0~D7
Minimal external components
HT6P20A/B: 8-pin DIP/SOP package
HT6P20D: 16-pin DIP/NSOP package
General Description
The HT6P20X is a CMOS LSI encoder designed for re-
mote control system applications. It encodes 24 bits of
information and then serially transmits it via the DOUT
pin upon receipt of transmission enable (DATA pins:
D0~D7) signals. The combination of address and data
bits of the HT6P20X is designed using one time pro-
grammable process. In addition, the chip offers various
packaging for flexible combination of programmable ad-
dress/data so as to meet various applications. Its pro-
grammable address/data is transmitted together with
the anti-code bits via RF or infrared transmission me-
dium upon receipt of a trigger signal.
Applications
Burglar alarm system
Smoke and fire alarm system
Garage door controllers
Car door controllers
Security system
Cordless telephones
Other remote control systems
O s c i l l a t o r
P r o g r a m m i n g
C i r c u i t
C o n t r o l U n i t
A d d r e s s
C o u n t e r
D a t a L a t c h
V P P
S I O
M i x e r &
D r i v e r
D O U T
O S C 1
O S C 2
P G M
D 0
D 7
Pin Assignment
Pin Description
HT6P20D
Pin No.
Pin Name
I/O
Internal
Connection
Description
16
1~3
D0~D3
I
CMOS IN
Pull-high
Data input and transmission enable (active low)
They can be externally set to VSS or left open.
4
VSS
Negative power supply, ground
5~8
NC
No connection
9
OSC2
O
OSCILLATOR
Oscillator output pin
10
OSC1
I
OSCILLATOR
Oscillator input pin
11
DOUT
O
CMOS OUT
Data serial transmission output
12
VDD
Positive power supply
13
VPP
I
Programming power supply, V
DD
for normal operation
14
SIO
I/O
CMOS
IN/OUT
Programming address/control code input and mode code output for
mode verification
15
PGM
I
CMOS IN
Pull-high
Program mode control pin, active low
Approximate internal connection circuits
HT6P20X Series
Rev. 1.40
2
June 20, 2003
1
2
3
4
8
7
6
5
S I O
V P P
V D D
D O U T
P G M
V S S
O S C 2
O S C 1
2 4 - A d d r e s s
0 - D a t a
2 0 - A d d r e s s
4 - D a t a
1 6
1 5
1 4
1 3
1 2
1 1
1 0
9
1
2
3
4
5
6
7
8
D 0
P G M
S I O
V P P
V D D
D O U T
O S C 1
O S C 2
D 1
D 2
D 3
V S S
N C
N C
N C
N C
1
2
3
4
8
7
6
5
N C
V D D
D O U T
O S C 1
D 0
D 1
V S S
O S C 2
2 2 - A d d r e s s
2 - D a t a
H T 6 P 2 0 A
8 D I P / S O P
H T 6 P 2 0 B
8 D I P / S O P
H T 6 P 2 0 D
1 6 D I P / N S O P
C M O S I N / O U T
C M O S I N
P u l l - h i g h
O S C I L L A T O R
O S C 1
O S C 2
C M O S O U T
V
D D
Absolute Maximum Ratings
Supply Voltage ...........................V
SS
-0.3V to V
SS
+12V
Storage Temperature ............................
-50C to 125C
Input Voltage..............................V
SS
-0.3V to V
DD
+0.3V
Operating Temperature...........................
-20C to 75C
Note: These are stress ratings only. Stresses exceeding the range specified under
Absolute Maximum Ratings 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 reliabil-
ity.
Electrical Characteristics
Ta=25
C
Symbol
Parameter
Test Conditions
Min.
Typ.
Max.
Unit
V
DD
Conditions
V
DD
Operating Voltage
2
12
V
I
STB
Standby Current
12V
Oscillator stops
1
2
mA
I
DD
Operating Current
12V
No load, f
OSC
=3kHz
200
400
mA
V
IH
H Input Voltage
0.8V
DD
V
DD
V
V
IL
L Input Voltage
0
0.2V
DD
V
R
PH
D0~D7 Pull-high Resistance
12V
150
300
k
W
I
DOUT
Output Current
Source
5V
0.9V
DD
-2
-5
mA
12V
0.9V
DD
-6.5
-15
mA
Sink
5V
0.1V
DD
2
5
mA
12V
0.1V
DD
6
15
mA
f
OSC
Oscillator Frequency
12V
R
OSC
=1.4M
W
3
kHz
HT6P20X Series
Rev. 1.40
3
June 20, 2003
Functional Description
Normal Operation
The HT6P20X encodes and transmits address/data to a decoder upon receipt of a trigger signal. The address codes of
the HT6P20A are always transmitted as long as power (VDD) is supplied. The transmission function of the HT6P20B/D
is enabled by the D0~D7 pins (active low). The following is the transmission timing of the HT6P20X:
A complete code word of the HT6P20D consists of 3 periods as shown below.
E n c o d e r
D O U T
< 1 w o r d
D 0 ~ D 7
> 1 w o r d
Transmission timing
a n t i - c o d e p e r i o d
( 4 b i t s )
p i l o t p e r i o d
( 2 3 c l o c k s )
a d d r e s s c o d e p e r i o d
d a t a c o d e p e r i o d
1 / 3 b i t
( A 0 ~ A 1 9 , 6 0 c l o c k s )
( D 3 ~ D 0 , 1 2 c l o c k s )
0
0
1
1
f o s c
D O U T
1 c l o c k
A complete code word for the HT6P20D
HT6P20X Series
Rev. 1.40
4
June 20, 2003
S t a n d b y m o d e
T r a n s m i s s i o n
e n a b l e d ?
N o
N o
Y e s
Y e s
A d d r e s s / d a t a w o r d s
t r a n s m i t t e d
T r a n s m i s s i o n
s t i l l e n a b l e d
A d d r e s s / d a t a w o r d s
t r a n s m i t t e d
c o n t i n u o u s l y
P o w e r o n
P G M = 0 ?
N o
Y e s
P r o g r a m m i n g
m o d e
N o
Y e s
P r o g r a m m i n g
c o m p l e t e d ?
N o t e : O n e t i m e p r o g r a m m a b l e
The HT6P20A/B/D detects the logic state of the internal programmed address and the external data pins, and then trans-
mits the detected information during the code period. Each address/data bit can be set to one of the following two logic
states:
Flowchart
" O n e "
" Z e r o "
f o s c
A d d r e s s /
D a t a b i t
Application Circuits
HT6P20X Series
Rev. 1.40
5
June 20, 2003
V P P
S I O
V S S
V D D
D O U T
O S C 1
O S C 2
R o s c
7
2
3
4
5
6
8
P G M
D 0
D 1
D 2
D 3
N C
N C
N C
N C
9
1 0
1 1
1 2
1 3
1 4
1
1 6
1 5
H T 6 P 2 0 D
R o s c @ 1 . 4 M W
+ 1 2 V
T r a n s m i t t e r C i r c u i t
V P P
S I O
P G M
V S S
V D D
D O U T
O S C 1
O S C 2
R o s c
1
2
3
4
5
6
8
7
H T 6 P 2 0 A
R o s c @ 1 . 4 M W
T E
+ 1 2 V
T r a n s m i t t e r C i r c u i t
L E D
L E D
T r a n s m i t t e r C i r c u i t
V P P
S I O
V S S
V D D
D O U T
O S C 1
O S C 2
R o s c
7
2
3
4
5
6
8
P G M
D 0
D 1
D 2
D 3
N C
N C
N C
N C
9
1 0
1 1
1 2
1 3
1 4
1
1 6
1 5
H T 6 P 2 0 D
R o s c @ 1 . 4 M W
+ 1 2 V
1 0 0 W
0 . 1 m .
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