JPH01264686A - Method for converting time code - Google Patents

Abstract

PURPOSE:To reduce the number of divisions at the time of converting a first time code to a second time code in a drop frame mode and to shorten the converting time of the time code by utilizing a character that the time code having a drop frame has a little error with a real time. CONSTITUTION:The first time code inputted to a second input interface 35 of a time code converter is inputted to a CPU 31 by a timing synchronizing to a first frame reference signal, and it is converted to the second time code according to the time code conversion system of a program ROM 32. The converted time code is outputted as the second time code by the timing synchronizing to a second frame reference signal through an output interface 36. As the first time code, the running time of an R-DAT is converted to the time code by using an SMPTE time code in the drop frame mode by an NTSC color system as the second time code.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention is applicable to, for example, a rotary head type digital audio tape recorder (hereinafter referred to as R-DAT) and a VTR that are synchronized for recording and recording. The present invention relates to a time code conversion method for a converter.

BACKGROUND OF THE INVENTION In recent years, in response to the increasing image quality of VTRs, there has been an increasing demand for audio tape recorders with higher sound quality. R-DAT is considered as a high-quality recording device to replace conventional analog recording, but the problem is synchronous recording and synchronous playback of video and audio.

Conventionally, in synchronized operation of VTRs, a time code was recorded simultaneously to specify the address on the tape, and 2
A method is used in which the time codes of the two VTRs are compared 3. and the tape running of the VTRs is controlled so that the two match. Same thing with VTR and R'-D
' To perform synchronized operation with A"r, VTR and R
-Since the frame period of the time code is different in DAT,
A time code converter is required to convert one time code to the other time code.

An example of the time code conversion method of the above-mentioned conventional time code converter will be described below with reference to the drawings.

FIG. 2 is a timing chart showing the operation timing of time code conversion. In FIG. 2, A represents the operation timing of the first time code, and B represents the operation timing of the second time code. In FIG. 2, the second time code is shown enclosed in a square to distinguish it from the first time code.

The time code conversion converts the time code of the first frame period (hereinafter referred to as the first time code) to the first time code and the second frame period time code (hereinafter referred to as the second time code). This is done by matching the start points of the frames at ○ hours, ○ minutes, ○ seconds, and converting the time codes into the corresponding second time codes.

Figure 2 shows the running time of R-DAT (frame period = -30 mS) as the first time code, and the SMP of an NTSC color one-way VTR as the second time code.
TE time code (frame period, = 1001÷3o=
33.37m5) is used. As shown in Figure 2, for example, the time code is converted to the same frame of the first time code, and when one frame of the first time code is input, it is converted to the country frame of the second time code. Perform code conversion.

FIG. 3 is a block diagram of a time code converter that performs the above-described time code conversion.

In FIG. 3, 31 is a central processing unit (hereinafter referred to as CPU).
), 32 is a program read-only memory (denoted as
33 is a random access memory (hereinafter referred to as RAM) used as the working memory of the CPU 31 (hereinafter referred to as program ROM);
, 34 are two timing reference signals: a first time code frame reference signal (hereinafter referred to as the first frame reference signal) and a second time code frame reference signal (hereinafter referred to as the second frame reference signal). 35 is a second input interface for inputting the first time code; 36 is a second input interface for inputting the first time code;
37 is an output interface for outputting the second time code, and 37 is a bus for address and data.

The operation of the time code converter configured as above will be explained below.

The first time code input to the second input interface 35 is read into the CPU 31 at a timing synchronized with the first frame reference signal. The CPU 31 converts the first time code into a second time code according to the time code conversion method stored in the program ROM 32, and converts the first time code into a second time code via the output interface 36.
frame 6...-/ The second time code is output at a timing synchronized with the frame reference signal.

An example of a conventional time code conversion method will be described below in which an R-DAT running time is used as the first time code and an NTSC color one-way drop frame mode SMPTE time code is used as the second time code.

FIG. 4 is a flowchart showing the processing procedure of the conventional time code conversion method described above.

(Step 1) The total number of frames of the first time code is determined.

If the hours, minutes, seconds, and frames of the first time code are defined as Hl, Ml, Sl, and Fl, respectively, the total number of frames N1 from ○ hours ○ minutes ○ seconds ○ frames is given by equation (1).

N1=2000X60H1+2000M1+339°+
INT(S/3)+F-H・・・・・・・・・(
1) In formula (1), INT() represents a function that rounds down the decimal part in () to make it an integer.

(Step 2) 7. Divide the total number of frames of the first time code by the ratio of the second frame period to the first frame period to obtain the total number of frames of the second time code.

The first frame period is T1, and the second frame period is F2.
Then, the ratio is given by equation (2). Further, the total number of frames N2 of the second time code is given by equation (3).

T2/T1==1001/900 ・-
---(2) N = INT (N1x9oo/1oo1)
-H---(3) (Step 3) Find the time of the second time code from the total number of frames of the second time code. If the time of the second time code is H, N2 is given by equation (4).

H-INT(N2-1)/107892)...
...(4) (Step 4) Find the 10th place of the second time code. If the 10th place of the second time code is M2', M' is given by equation (5). However, Zl is a working variable.

Z -N-1-107892H2 M2'-,,,INT (Z1/17982)
... Old... (5) (Step 5) Find the first minute of the second time code. If the minute digit of the second time code is M2'', then M' is given by equation (6). However, z2 is a working variable. Therefore, the minute M2 of the second time code is (7 ) is given by the formula.

Z2-21-17982M et al. M' = Engineering NT ((Z2-2)/1ryo98) ・
...Old...(6) M2-10M2'+M2'
-, -, - (7) (Step 6) Perform drop frame correction. In other words, if the 1st digit M2'' of the second time code is not ., then 22 is obtained by adding 2 to Z2.

(Step 7) Find the seconds of the second time code. If the seconds of the second time code are 82, S2 is given by equation (8). However, Z3 is a working variable.

Z3=22-1798M Tomi' S2-Engineering NT (Z2/30)...Old...(
8)9 ・-.

(Step 8) Find the second time code frame. If the frame of the second time code is F, F2 is given by equation (9).

F2-Z3-30S2...
(9) Problems to be solved by the invention However, in the conventional time code conversion method as described above, there is a problem that the time code conversion requires a long time due to the large number of divisions that take a long calculation time. It had a point.

For example, in the case of the conventional example, (1), (3) +
Each of the equations (4), (5) + (6) + (8) required one division, for a total of six divisions.

In view of the above problems, the present invention provides a time code conversion method that reduces the time code conversion time by reducing the number of divisions when converting a first time code to a second time code having a drop frame. It is something to do.

Means for Solving the Problems In order to solve the above problems, the time code conversion method of the present invention calculates the total number of frames of the time code 10.\- node in the first frame period, and converts the time code in the first frame period The total number of frames of the time code is divided by the ratio of the second frame period to the first frame period to obtain the total number of frames of the time code in the second frame period. Furthermore, the predicted time code of the second frame period is determined from the time code of the first frame period, the total number of frames is determined from the predicted time code of the second frame period, and 1. Second
The second frame number from the total number of frames of the time code with a frame period of
The total number of frames of the predicted time code of the frame period is subtracted, and the difference is added to the predicted time code of the second frame period to obtain the time code of the second frame period.

Function The present invention utilizes the property that a time code having a drop frame has a small error with real time, thereby converting a first time code into a second time code in a drop frame mode.
It is possible to realize a time code conversion method that reduces the number of divisions when converting to a time code and shortens the time code conversion time.

Embodiment Hereinafter, a time code conversion method according to an embodiment of the present invention will be explained with reference to the drawings.

The basic configuration of a time code converter having the time code conversion method of this embodiment is as shown in FIG. 3, and the conversion method is different from that of the conventional example.

In the following, regarding the time code conversion method of the present invention, similar to the conventional example, a case where R-DAT running time is used as the first time code and SMPTE Quimcode in drop frame mode with NTSC color one-way system is used as the second time code. will be explained using an example.

FIG. 1 is a flowchart 1- showing the processing procedure of a time code conversion method in an embodiment of the present invention.

(Step 1) Find the total number of time code frames in the first frame period. If the hours, minutes, seconds, and frames of the first time code are Hl, Ml, Sl, and Fl, respectively, then the total number of frames N1 from ○ hours ○ minutes ○ seconds ○ frames is given by equation (1).

(Step 2) Divide the total number of frames of the time code of the first frame period by the ratio of the second frame period to the first frame period to obtain the total number of frames of the time code of the second frame period. The total number of time code frames N2 in the second frame period is given by equation (3). Step 1. Step 2 is the same as in the conventional example.

(Step 3) Find the predicted time code of the second frame period from the time code of the first frame period. Hours, minutes, seconds, and frames of the predicted time code of the second frame period are respectively Np2 + 'b/F' 21 S' 21 F' 2
For example, the second predicted time code is (1o)
Given by equation (10), when there are three frames Fp2 of the predicted time code of the second frame period, O≦F2≦29 for 0≦F1≦33, and Fp
Since there is a case of 2 hadrosop frames, 2≦F2≦29
This is because.

(Step 4) From the predicted time code of the second frame period.

Find the total number of frames. If the total number of frames of the predicted time code in the second frame period is Np2, Np2 is given by equation (11).

Np =1800X60Hp +1800Mp +30
SP2+FP2-2X (Np2-INT (Np2/
10)+54Hp2) (11) (Step 5) Subtract the total number of frames of the predicted time code of the second frame period from the total number of frames of the time code of the second frame period. Letting the difference be d, d is given by equation (12).

14”-7 d-N2-Np2 ・・・・・・・・・(
12) The error between the running time of R-DAT, which is the first time code, and the real time is within one frame, and the second time code, which is NTSC color, is SMPTE time code in drop frame mode. The error between this and the real time is within 3 frames, and the difference d from the time code of the second frame period when calculating the predicted time code of the second frame period using equation (10) is 5 frames. within the range of

(Step 6) Add the difference to the predicted time code of the second frame period and
Find the time code of the frame period.

By adding d frames of the predicted time code of the second frame period in consideration of the drop frame mode, the time code of the second frame period can be determined.

As described above, in the time code conversion method of this embodiment, (
1), (3), and (11) require one division each, and a total of three divisions. This is the final step in the conventional time code conversion method, and can reduce the time code conversion time to approximately half.

15. As described above, according to this embodiment, the second time code is predicted directly from the first time code by taking advantage of the property that the drop frame mode time code has little error from real time. , obtain a prediction error from the difference between the total number of frames of the second time code and the total number of frames of the second predicted time code, and add the prediction error to the second predicted time code to obtain a second time code. By doing so, it is possible to realize a time code conversion method that requires a short time code conversion time.

Effects of the Invention As described above, the present invention provides a method for converting the time code of the first frame period into the time code of the second frame period having a drop frame, by reducing the total frame period V of the time code of the first frame period. - Find the total number of frames of the time code in the first frame period and divide the total number of frames of the time code in the first frame period by the ratio of the second frame period that is aligned with the first frame period. , Further, a predicted time code of the second frame period is determined from the time code of the first frame period. Then, the total number of frames is calculated from the predicted time code of the second frame period, and the total number of frames of the predicted time code of the second frame period is subtracted from the total number of frames of the time code of the second frame period. In addition, by adding the difference to the predicted time code of the second frame period to obtain the time code of the second frame period, it is possible to realize a time code conversion method that requires a short time code conversion time.

[Brief explanation of the drawing]

FIG. 1 is a flowchart showing the processing procedure of a time code conversion method in an embodiment of the present invention, FIG. 2 is a timing chart showing the operation timing of time code conversion, and FIG. 3 is a block diagram showing the configuration of a time code converter. 4 are flowcharts showing the processing procedure of a conventional time code conversion method. 31...Central processing unino l-132...
Read-only memory for programming, 33...
Random A1γ・−. access memory, 34...first input interface, 35...second input interface,
36... Output interface, 3γ...
·bus.

Claims (1)

[Claims] When converting a time code of a first frame period to a time code of a second frame period having a drop frame, calculating the total number of frames of the time code of the first frame period; dividing the total number of frames of the time code of the period by the ratio of the second frame period to the first frame period to obtain the total number of frames of the time code of the second frame period; obtaining a predicted time code of a second frame period from the time code; obtaining a total number of frames from the predicted time code of the second frame period; and a total number of frames of the time code of the second frame period. subtracting the total number of frames of the predicted time code of the second frame period from , and calculating the time code of the second frame period by adding the difference to the predicted time code of the second frame period. A time code conversion method comprising: