MULTI BURST TEST CHAR

                                                   REFLECTANCE

A line raster is arranged in the center of the test chart which produces frequencies of 0.5 to 10

MHz in the output of the TV camera. 0.5 MHz line pairs are also arranged at the center of the

line raster immediately adjacent to the 5 MHz line pairs. Bar rasters are located in the corners

of the test charts and produce frequencies of 0.5 and 5 MHz.

The frequencies response of modulation depth and the uniformity of modulation depth can be

established with the aid of the line rasters. The signal amplitude of the 0.5 MHz rasters is the

reference value.

Measuring equipment: Video oscilloscope or preferably video oscilloscope with memory.

Measurements conditions: The camera settings must be as follows

Shading correction: ON

Aperture correction: OFF

Gamma correction: OFF

Contour correction: OFF

Color correction: OFF

Iris: F/5.6 for 2/3 “CCD, F/4 1/2” CCD

The test chart is evenly illuminated so that for the low frequency burst at 0.5 MHz the amplitude

of the video signal at the output of the correctly positioned and focused camera is 0% (0V) for

the black bars and 100% (700mV/ 75 Ohms) for the white bars.

Care must be taken to avoid clipping of the signal to be measured at the black and white level.

Measurement procedure

Measurements can be made on the various camera output signals, but preferably on the Y

luminance signal (or coded Y with perfect B and W balance). This measurement is made

at the center of the image and at the corners so that account is taken of the lateral chromatic

aberration of the lens. In addition to determining camera response to the particular value of

5 MHz, measurement of the response at the other frequencies serves to plot a curve giving

contrast loss according to the spatial frequency of the test chart. Frequency bursts of 0.5

MHz and 1 to 7 MHz are recommended for this measurement. The measurements give the

contrast loss of the camera response at the value of 1 to 7 MHz. The obtained response is

a contrast transfer function (CTF).

Mathematical relations can be used to calculate the MTF according to the CTF values:

MTF(N)= π/4[CTF(N) + 1/3 CTF(3N) - 1/5 CTF(5N) + 1/7 CTF(7N) - 1/9 CTF(9N) + 1/11 CTF(11N) ...]

where N is the spatial frequency of the test chart analysed; N in TVL/H

In the - probable - case of a beat affecting camera response for a given spatial frequency,

and under certain conditions only, the measured signal reassembles an

amplitude-modulated carrier signal, as shown in the following figure

The percentage of modulation is then defined by the relation:

% mod = M / X

The interference ripple at this frequency is given by:

p % = m / M

x = Amplitude of the 0.5 MHz signal

The results of the measurement can be shown in a table representing the various areas of

the image measured.

CTF values at 5 MHz

xxx %                       xxx %

              xxx %

xxx %                       xxx %