Kam-hdd-fs hd/sd frame sync with down converter, Kam-hdd hd/sd with monitoring down converter – Grass Valley Kameleon HD Multi-Function Modules v.2.5.0 User Manual
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Kameleon HD—Instruction Manual
Module Overviews
KAM-HDD-FS HD/SD Frame Sync with Down Converter
The KAM-HDD-FS module offers HD and SD signal video processing and
frame synchronization with video proc amps plus color correction and
down conversion. The required rear module for use with this module is the
dual-height KAM-HDD-R Rear.
This module is most useful in applications where frame synchronization,
down conversion, and signal correction are required.
The module can be configured in a number of different ways as follows:
•
One HD input (HD 59.94 or HD 50) with two HD outputs, two down
converted SD outputs, and two encoded composite outputs as shown
in the Functional View block diagram in
.
•
One HD input with four HD outputs and two down converted encoded
composite outputs as shown in the Functional View block diagram in
•
One HD input (HD 24 – no down conversion) with four HD outputs as
shown in the Functional View block diagram in
.
•
One SD input, four SD outputs and two encoded composite outputs as
shown in the Functional View block diagram in
.
KAM-HDD HD/SD with Monitoring Down Converter
The KAM-HDD module offers HD or SD down conversion with composite
outputs. This module can use the single height KAM-HD-R Rear module.
This module does not have frame sync capability so if the output from the
KAM-HDD must be in time with an external reference, special consider-
ations must be made. To match the external reference, the input signal to
this module must already be in time with the required reference. and the
output timing on the System Config web page must then be set to Frame
Reference.
The module can be configured in the following different ways:
•
One HD input (HD 59.94 or HD 50) with two HD outputs, two down
converted SD outputs, and two encoded composite outputs as shown
in the Functional View block diagram in
.
•
One HD input with four HD outputs and two down converted encoded
composite outputs as shown in the Functional View block diagram in
•
One HD input (HD 24 – no down conversion) with four HD outputs as
shown in the Functional View block diagram in
.
•
One SD input, four SD outputs and two encoded composite outputs as
shown in the Functional View block diagram in
.