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| United States Patent | 4881273 |
| Link to this page | http://www.wikipatents.com/4881273.html |
| Inventor(s) | Koyama; Kazuo (Tokyo, JP);
Amano; Yoshikai (Tokyo, JP) |
| Abstract | An RDS-system radio having an automatic tuning function which is configured
to compare program information codes of a currently received broadcasting
and other broadcastings in a seeking or scanning operation to avoid
switching to new broadcastings which are identical to the currently
received broadcasting in order to prevent useless steps in the seeking or
scanning operation. |
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Title Information  |
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Drawing from US Patent 4881273 |
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RDS system radio |
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| Publication Date |
November 14, 1989 |
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| Filing Date |
August 24, 1988 |
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| Priority Data |
Sep 07, 1987[JP]62-223773 |
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Title Information |
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Claims |
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What is claimed is:
1. An RDS-system radio which can receive broadcast waves each including an
RDS code containing a program identification code and which has an
automatic tuning operation, comprising:
tuner means for selecting and receiving a desired broadcasting wave;
RDS decoder means for decoding the RDS code included in a broadcasting wave
received by said tuner means;
control means coupled to said tuner means and responsive to said RDS
decoder means in an arithmetic tuning mode for causing said tuner means to
switch from receiving an originally broadcasting wave to a first new
broadcasting wave if the program identification code of the original
broadcasting wave is different from the program identification code of the
new broadcasting wave, and for causing said tuner means not to switch to
the first new broadcasting wave but to switch to receive a second new
broadcasting wave having a program identification code different from the
program identification code of said original broadcasting wave when said
program identification codes of said original broadcasting wave and said
first new broadcasting wave are identical; and
operation means for causing said control means to initiate said automatic
tuning mode.
2. An RDS-system radio according to claim 1, wherein after causing said
tuner means to switching to receive one of said new broadcasting waves in
said automatic tuning mode said control means causes said tuner means to
continue receiving that new broadcasting wave until said operation means
initiates a further switch in broadcasting waves.
3. An RDS-system radio according to claim 1, wherein a predetermined time
interval after causing said tuner means to switch to receive one of said
new broadcasting waves in said automatic tuning more, said control means
initiates a further switch in broadcasting waves.
4. An RDS radio system which can receive broadcasting waves each including
an RDS code containing a program identification code, comprising: tuner
means for selecting and receiving a specified broadcasting wave; RDS
decoder means coupled to said tuner means for decoding the RDS code
included in a broadcasting wave being received by said tuner means;
control means cooperable with said tuner means for specifying a
broadcasting wave said tuner means is to select and receive, said control
means being responsive to said RDS decoder means in an automatic tuning
mode for initiating a check of program identification codes from said RDS
decoder means for a series of broadcasting waved different from a first
specified broadcasting wave which said tuner means has been receiving and
for causing said tuner means to switch from reception of said first
specified broadcasting wave to reception of a second specified
broadcasting wave which is the first of the broadcasting waves in said
series having a program identification code different from the program
identification code of said first specified broadcasting wave; and
operation means for causing said control means to initiate said automatic
tuning mode.
5. A system according to claim 4, wherein said control means terminates
said automatic tuning mode after locating said second specified
broadcasting wave in said series, and thereafter causes said tuning means
to continue receiving said second specified broadcasting wave until
instructed by said operation means to effect a further change in
broadcasting waves.
6. A system according to claim 4, wherein said control means remains in
said automatic tuning mode until said automatic tuning mode is terminated
by said operation means, said control means causing said tuner means to
receive said second specified broadcasting wave for a predetermined
interval of time, then continuing said check of the program identification
codes in said series of said broadcasting waves and causing said tuner
means to carry out reception of a third specified broadcasting wave which
is a broadcasting wave from said series having a program identification
code different from the program identification code of said second
specified broadcasting wave. |
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Claims |
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Description |
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FIELD OF THE INVENTION
This invention relates to an RDS system radio, in particular, of a type
having a seek, scan or other automatic tuning function.
DESCRIPTION OF THE PRIOR ART
Not only in an RDS (radio data system) system radio but also in other prior
art radio having an automatic tuning function, when a scan or seek
operation is effected, the radio stops its scan or seek operation upon
catching a broadcasting of a field strength above a predetermined level
and starts reception of the broadcasting. In the case, since a condition
for stopping the automatic tuning and starting the reception is only that
the field strength is above a predetermined level, the radio stops its
tuning operation and starts the reception also when it is the same
broadcasting as that heretofore listened to.
However, considering the reason why a user effects a seek or scan
operation, a user has a purpose of searching any other broadcasting he
desires. Therefore, it is a useless operation to tune at the same
broadcasting as that heretofore received. This useless operation causes a
delay of the seek or scan operation, and particularly in a seek operation,
a certain key operation is required once more to search another
broadcasting.
SUMMARY OF THE INVENTION
This invention has been made to improve the aforementioned drawbacks of the
prior art, and is characterized basically in that in sequentially changing
the received frequency in order to change the received broadcasting from
one to another, a PI (program identification) code of a broadcasting
heretofore received is compared to a PI code of a newly received
broadcasting so that the newly received broadcasting is not selected when
these PI codes coincide.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a block diagram showing an arrangement of an RDS-system radio to
which the invention can be applied;
FIG. 2 is a flowchart showing a general seek operation according to the
invention; and
FIG. 3 is a flowchart showing a general scan operation according to the
invention.
DETAILED DESCRIPTION
The invention is described below, referring to a preferred embodiment
illustrated in the drawings.
FIG. 1 shows an arrangement of an RDS-system radio.
An RDS (radio data system) broadcasting received by a tuner 1 through an
antenna is decoded in an RDS decoder 2 and is subsequently entered in a
microcomputer 3 as RDS data. The RDS data includes a PI (program
identification) code which identifies the broadcasting.
The tuner 1 sends an S meter (signal meter) output showing the field
strength of the broadcasting in reception to the microcomputer 3 through
an A/D (analog-to-digital) converter 4. Reference numeral 5 denotes a
low-pass filter.
When a signal for instructing a seek operation is applied by an operation
means 6, the microcomputer 3 controls the tuner 1 o change the received
frequency sequentially and, in receipt of field strength information from
the A/D converter 4, stop the seek operation at the frequency having a
predetermined field intensity and effect reception at the frequency.
Similarly, when a signal for instructing a scan operation is applied from
the operation means 6 to the microcomputer 3, the microcomputer 3 controls
the tuner 1 to repeat motions of sequentially receiving station having
received field intensities above a predetermined level by a predetermined
time.
In the prior art, if a frequency has a predetermined field intensity,
reception is always effected at the frequency, and it was not judged at
all whether it is the same as the broadcasting program heretofore
received.
In the embodiment of the invention, the microcomputer 3 effects comparison
of the PI code included in the RDS data from the RDS decoder 2. That is,
the PI code of the broadcasting program heretofore received is compared to
a PI code of a broadcasting program to be received subsequently by
changing the frequency. If these PI codes are identical, the same
broadcasting is identified. Therefore, the microcomputer 3 controls the
tuner 1 to not receive the broadcasting of the frequency and switch to a
subsequent frequency to receive another broadcasting.
FIG. 2 shows a flowchart of a seek operation. When an operator effects a
seek-starting operation, the microcomputer 3 controls the tuner 1 to start
the seek (step 20). At first, the microcomputer 3 sets the tuner 1 at a
predetermined frequency, enters its S meter output from the A/D converter
4, and judges whether the field strength is above a predetermined level
(step 21). When the field strength is above the level, the PI code (PI) of
the presently received broadcasting program is compared to the PI code
(PI') of the newly selected broadcasting program in the RDS data from the
RDS decoder 2 (step 22). When PI is different from PI', the newly selected
broadcasting is received (step 23). When PI and PI' are identical, the
microcomputer 3 controls the tuner 1 to not receive the newly selected
broadcasting, and after checking whether it returned to the original
frequency or not (step 25), raise (or drop) the frequency by the minimum
inter-station frequency (step 26) and select a next broadcasting,
returning to step 21. After a newly selected broadcasting is received in
step 23, the seek is finished (step 24). When the seek returns to the
original frequency in step 25, this means that there is no new
broadcasting to switch to, and it returns to the originally received
broadcasting (step 27), and the seek operation is finished.
FIG. 3 shows a flowchart of a scanning operation.
Upon a user's operation for starting a scanning, the microcomputer 3
controls the tuner 1 to start such a scanning (step 30), sets the tuner 1
at a predetermined frequency, enters its field strength signal from the
A/D converter 4, and judges whether the field strength of the broadcasting
is above a predetermined value or not (step 31). When the field strength
is above the level, the PI code PI of the presently received broadcasting
program is compared to the PI code PI' of the newly selected broadcasting
program (step 32). When PI and PI' are not identical, the newly selected
broadcasting is received for a predetermined time (step 33).
When PI and PI' are identical, the microcomputer 3 controls the RDS decoder
2 to not receive the newly selected broadcasting and jump step 33 to check
whether it has returned to the originally received frequency or not (step
34), raise (or drop) the frequency by the lowest inter-station frequency
(step 37), select a next broadcasting, returning to step 31, and repeat
the same operation. Also when the frequency does not reach the
predetermined field strength, the scanning jumps to step 34.
After reception for a predetermined time in step 33, the scanning traces
step 34, and in step 37 selects a next broadcasting, repeating the
aforementioned operation.
When the scanning returns to the originally received frequency in step 34,
this means that there is not new broadcasting to switch to, and it returns
to the originally received broadcasting (step 35), and the scanning is
finished (step 36).
As described above, since the inventive reception method is arranged so
that when changing from a presently received broadcasting to another
broadcasting by switching the received frequency sequentially, a PI code
of the presently received broadcasting is compared to a PI code of a newly
received broadcasting in order to not receive the new broadcasting when
these PI codes are identical, no useless operation occurs, and the
operating speed of the radio in scanning or seeking operations is
improved.
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Description |
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