and provides three separate 75Q outputs of 700mV for each
component. It is identical to the AM23/521B except that it
has a different matrixing resistor network fitted. Power
requirements +12V at 150mA -12V at 150mA. 4U IJI width
unsupported card. DDHB 8.421(84). DD 1983.
AM23/521B This amplifier converts analogue YUV signals to analogue
RGB. It is designed for a 700mv input and provides three
separate 75Q outputs of 700mv for each component. It is
identical to the AM23/521A except that it has a different
matrixing resistor network fitted. Power requirements +12V
at 150mA -12V at 150mA. 4U IJI width unsupported card.
DDHB 8.421(84). DD 1983.
AM23/521ABCD Matrixing Amplifier. This unit is designed to convert
between RGB and YUV analogue component television signals.
It will provide three separate 75Q outputs for each
component.
The A version converts 700mV RGB to PAL weighted YUV
signals
The B version converts PAL weighted YUV to 700mV RGB
signals
The C version converts 700mV RGB to 700mv YUV signals
The D version converts 700mV YUV to 700mV RGB signals
These versions are identical except for a matrixing
resistor network fitted during manufacture. Power
requirements +12V at 150mA -12V at 150mA. 4U unsupported
pcb with PN1/29J front panel. DDHB 8.421(84). DDMI
8.695(85). DD 1984. EDI 10531(1) JUL 86.
AM230522 AM23/522A-D Matrix Amplifier. This unit is designed to convert between
RGB/S and YUV/S analogue component television signals. It
will provide three separate 75 Q outputs for each
component.
The A version converts 700 mV RGB to PAL weighted YUV
signals
B version converts PAL wieghted YUV to 700 mV RGB
signals
C version converts 700 mV RGB to 700 mV YUV signals
D version converts 700 mV YUV to 700 mV RGB signals
These versions are identical except for a matrixing
resistor network fi tted during manufacture. Power
requirements 240 V ac mains. CH1/64A. DD 1984.
AM230523 AM23/523 A-F Matrix Amplifier. This unit is designed to convert between
RGB/S and YUV/S analogue component television signals. It
will provide three separate 75 Q outputs for each
component.
The A version converts 700 mV RGB to PAL weighted YUV
signals.
B
PAL weighted YUV to 700 mV RGB
signals.
C
700 mV RGB to 700 mV YUV signals.
D
700 mV YUV to 700 mV RGB signals.
E
700 mV RGB to Betacam-weighted YUV
signals.
F
Betacam weighted YUV to 700 mV RGB
signals.
These versions are identical except for a matrixing
resistor
network
fitted
during
manufacture.
Power
27

27