Modulation/demodulation method and apparatus
First Claim
1. A modulation/demodulation method so configured that at a transmitter side, data is transmitted after an input signal is converted into a modulation signal train comprising serially arranged words each comprising bits of a predetermined number larger than a bit number of the input signal, and a position of a pulse existing in the word is different from one pattern of the input signal to another,wherein, at the transmitter side, the input signal is divided into signal strings each comprising “
- n”
bits, where “
n”
is a positive integer larger than “
1”
, and each signal string comprising “
n”
bits is converted into a modulation signal string of one word comprising “
n+1”
bits, and then, the modulation signal string is serially transmitted bit by bit, and wherein, at a receiver side, the signal serially received bit by bit is divided into received signal strings each comprising “
n+1”
bits, and each of the received signal strings is demodulated into a demodulated signal string comprising “
n”
bits, so that the demodulated signal string is serially outputted bit by bit.
2 Assignments
0 Petitions
Accused Products
Abstract
In a modulation/demodulation system for an infrared data communication, a three-bit serial-to-parallel converting circuit captures an input signal in units of three bits in synchronism with an input clock, and outputs a three-bit parallel data to a decoder. This decoder converts the three-bit parallel data into a four-bit parallel data having different patterns corresponding to all different patterns of the three-bit parallel data in a one-to-one relation. In this four-bit parallel data, regardless of how the four-bit parallel data are serially arranged, the total length of the continuing “1” bits is two bits at maximum, and the total length of the continuing “0” bits is six bits at maximum. A four-bit parallel-to-serial converting circuit receives the four-bit parallel data, to serially output a serial data in synchronism with a modulation clock. Thus, the data transfer rate can be elevated in the infrared data communication.
22 Citations
18 Claims
-
1. A modulation/demodulation method so configured that at a transmitter side, data is transmitted after an input signal is converted into a modulation signal train comprising serially arranged words each comprising bits of a predetermined number larger than a bit number of the input signal, and a position of a pulse existing in the word is different from one pattern of the input signal to another,
wherein, at the transmitter side, the input signal is divided into signal strings each comprising “ - n”
bits, where “
n”
is a positive integer larger than “
1”
, and each signal string comprising “
n”
bits is converted into a modulation signal string of one word comprising “
n+1”
bits, and then, the modulation signal string is serially transmitted bit by bit, andwherein, at a receiver side, the signal serially received bit by bit is divided into received signal strings each comprising “
n+1”
bits, and each of the received signal strings is demodulated into a demodulated signal string comprising “
n”
bits, so that the demodulated signal string is serially outputted bit by bit.- View Dependent Claims (2)
- n”
-
3. A modulation/demodulation apparatus so configured that at a transmitter side, data is transmitted after an input signal is converted into a modulation signal train comprising serially arranged words each comprising bits of a predetermined number larger than a bit number of the input signal, and a position of a pulse existing in the word is different from one pattern of the input signal to another,
wherein the transmitter side includes: -
first converting means for converting the input signal into signal strings each comprising “
n”
bits, where “
n”
is a positive integer larger than “
1”
;
modulating means for modulating each signal string comprising “
n”
bits into a modulation signal string of one word comprising “
n+1”
bits; and
first output means for serially outputting the modulation signal string bit by bit. - View Dependent Claims (4, 5, 6, 7, 8)
second converting means for converting the signal serially outputted bit by bit from the first output means of the transmitter side, into received signal strings each comprising “
n+1”
bits;
demodulating means for demodulating each received signal string into a demodulated signal string comprising “
n”
bits; and
second output means for serially outputting bit by bit the demodulated signal string comprising “
n”
bits.
-
-
5. A modulation/demodulation apparatus claimed in claim 3 wherein said modulating means converts a binary signal string of the “
- n”
bits having a 2n different combinations, into the modulation signal string of one word comprising the “
n+1”
bits having 2n different combination patterns corresponding to the 2n different combinations in a one-to-one relation in each of the 2n different modulation signal strings, regardless of how the modulation signal strings are serially arranged, the signal value of “
1”
continues only two signals at maximum, and the signal value of “
0”
continues only six signals at maximum.
- n”
-
6. A modulation/demodulation apparatus claimed in claim 3 wherein “
- n”
is 3 and “
n+1”
is 4, and said modulation signal string includes eight different patterns of “
1000”
, “
0100”
, “
0010”
, “
0001”
, “
10001”
, “
0110”
, “
1010” and
“
0101”
.
- n”
-
7. A modulation/demodulation apparatus claimed in claim 4 wherein “
- n”
is 3 and “
n+1”
is 4, and said modulation signal string includes eight different patterns of “
1000”
, “
0100”
, “
0010”
, “
0001”
, “
1001”
, “
0110”
, “
1010” and
“
0101”
.
- n”
-
8. A modulation/demodulation apparatus claimed in claim 5 wherein “
- n”
is 3 and “
n+1”
is 4, and said modulation signal string includes eight different patterns of “
1000”
, “
0100”
, “
0010”
, “
0001”
, “
1001”
, “
0110”
, “
1010” and
“
0101”
.
- n”
-
9. A modulation/demodulation method comprising:
-
at a transmitter side, dividing an input signal is divided into signal strings each comprising “
n”
bits, where “
n”
is a positive integer larger than “
1”
;
converting each signal string comprising “
n”
bits into a modulation signal string of one word comprising “
n+1”
bits; and
serially transmitting the modulation signal string bit by bit, wherein at a receiver side, the signal serially received bit by bit is divided into received signal strings each comprising “
n+1”
bits.- View Dependent Claims (10)
-
-
11. A modulation/demodulation apparatus comprising:
-
a transmitter side; and
a receiver side, wherein said transmitter side comprises;
a divider for dividing an input signal into signal strings each comprising “
n”
bits, where “
n”
is a positive integer larger than “
1”
;
a converter for converting each signal string comprising “
n”
bits into a modulation signal string of one word comprising “
n+1”
bits; and
an output device for serially transmitting the modulation signal string bit by bit to said receiver side, wherein, at said receiver side, the signal serially received bit by bit is divided into received signal strings each comprising “
n+1”
bits.- View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
a second converter for converting the signal serially outputted bit by bit from the output device of the transmitter side, into received signal strings each comprising “
n+1”
bits.
-
-
13. The modulation/demodulation apparatus claimed in claim 12, wherein the receiver side further includes:
a demodulator for demodulating each received signal string into a demodulated signal string comprising “
n”
bits.
-
14. The modulation/demodulation apparatus claimed in claim 13, wherein the receiver side further includes:
a second output device for serially outputting bit by bit the demodulated signal string comprising “
n”
bits.
-
15. The modulation/demodulation apparatus claimed in claim 11, wherein said converter converts a binary signal string of the “
- n”
bits having a 2n different combinations, into the modulation signal string of one word comprising the “
n+1”
bits having 2n different combination patterns corresponding to the 2n different combinations in a one-to-one relation in each of the 2n different modulation signal strings, regardless of how the modulation signal strings are serially arranged, the signal value of “
1”
continues only two signals at maximum, and the signal value of “
0”
continues only six signals at maximum.
- n”
-
16. The modulation/demodulation apparatus claimed in claim 11, wherein “
- n”
is 3 and “
n+1”
is 4, and said modulation signal string includes eight different patterns of “
1000”
, “
0100”
, “
0010”
, “
0001”
, “
1001”
, “
0110”
, “
1010” and
“
0101”
.
- n”
-
17. The modulation/demodulation apparatus claimed in claim 14, wherein “
- n”
is 3 and “
n+1”
is 4, and said modulation signal string includes eight different patterns of “
1000”
, “
0100”
, “
0010”
, “
0001”
, “
1001”
, “
0110”
, “
1010” and
“
0101”
.
- n”
-
18. The modulation/demodulation apparatus claimed in claim 15, wherein “
- n”
is 3 and “
n+1”
is 4, and said modulation signal string includes eight different patterns of “
1000”
, “
0100”
, “
0010”
, “
0001”
, “
1001”
, “
0110”
, “
1010” and
“
0101”
.
- n”
Specification