4 data transmission – Nevion AAV-HD-DMUX User Manual

AAV-HD-DMUX(-R)/ AAV-SD-DMUX(-R)

Rev. 7

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The input buffer is two video lines of the longest standard and starts in the middle.
Subsequent switches will be transparent if the new signal is within a line from the original
video. There will be a glitch on the output if the new video phase is outside of this range and
the buffer will be re-aligned to the middle with the new signal phase.

3.4 Data transmission

The module can de-embed and embed asynchronous data. An AES3 audio signal is used as
a carrier. Both embedded audio and normal AES3 signals may be used to carry the RS422
data. The fiber connection usually only goes one direction so any desired return path must
be created by the user with another circuit. Return data may be sent over fiber via a link
comprising of AAV-HD-DMUX, D422 or D422-MG modules.

The 8P8C Jack data input works in one of two modes:

UART Mode: The data is checked for correct reception according to the configuration. The
data words are packaged and sent when present.

Raw sampling mode: The data input is sampled at 93.75 kHz and embedded as a data
stream. No checking is performed.

3.4.1 Data latencies

The data channel has a total latency of approximately 30us when using raw sampling.
Normal data rates of up to 9600 may be used with raw data sampling to have a low latency.
The latency is 500us when using the normal data encoding due to the block structure of the
AES User bits.

The configuration of the data channel is always stored in the module and used regardless of
the GYDA override switch.

3.4.2 Embedding

The AAV-HD-DMUX has a RS422 data input for the embedding of control data. The baud
rate and other parameters are configured with GYDA. The factory default is 115200 baud, no
parity, one stop bit.

The data channel is encoded in the User bits in an embedded audio stereo signal assigned
with GYDA. The factory default is Audio channels 1&2 in Group 1.

The data is sampled asynchronously at a constant bit rate. The range of baud rates is from
DC to 115,200 bps. The data bytes are either encoded as packets in the transmitted data or
transmitted as an asynchronous bit stream which may also be used to transmit a DC signal
such as GPI.

3.4.3 De-embedding

The audio channel with the data signal to be de-embedded must be configured by GYDA as
there may be several data channels available.

The AAV-HD-DMUX will automatically detect the data channel format when present and
output the data on the 8P8C Jack connector. The output driver will only be active when data
is output in UART mode. The means that the output is always active when raw data is used.

3.4.4 Limitations

1. There is one thing the user must do in order to receive embedded data. The audio

source where the data is embedded must be routed to a destination in the stereo
router. This is because the extraction of the data takes place on the output of the
router.
Example: Data is to be de-embedded from embedded audio channels 1&2.
Embedded audio channels 1&2 routed to output to Delay 4.