CMX625D5 CML Microcircuits, CMX625D5 Datasheet - Page 11

CMX625D5

Manufacturer Part Number

CMX625D5

Description

ISDN TA POTS Interface

Manufacturer

CML Microcircuits

Datasheet

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ISDN TA POTS Interface

Each channel consists of the following 4 bytes:

(i)

(ii) The third byte, labelled ‘Monitor’, is used for programming and controlling devices attached to the

1.5.4

The Monitor channel operates on an event driven basis. While data transfers on the bus take place

synchronised to the frame sync, the flow of data is controlled by a handshake procedure using the

outgoing MX (monitor transmit) and incoming MR (monitor receive) bits. Data is placed onto the monitor

channel and the MX bit is activated. This data will be transmitted repeatedly (once per 8kHz frame) until

the transfer is acknowledged (ACK) via the MR bit. The actual data rate is not fixed but is dependent

upon the response speed of the transmitter and receiver. The protocol is applicable to both TE and non-

TE modes.

Figure 5 shows the general case for monitor handshake timing. The first byte of data is placed on the

bus and MX is activated (low). MX remains active and the data remains valid until an inactive-to-active

transition of MR is received, indicating that the receiver has read the data off the bus. The next byte is

placed on the bus after the inactive-to-active transmission of MR, as early as the next frame (there is no

limit to the maximum number of frames). At the time that the second byte is transmitted, MX is returned

inactive (high) for one frame (MX inactive for more than one frame indicates an End of Message). In

response to MX going active (low), MR will be deactivated (high) for one frame (the MX inactive to MR

inactive delay can be any number of frames). This procedure is repeated for each additional byte. The

transmitter sends an End of Message (EOM), after the last byte of data has been transmitted, by not

reactivating MX after deactivating it.

The receiver can hold off the transmitter by keeping MR active until the receiver is ready for the next

byte. The transmitter will not start the next transmission cycle until MR goes inactive.

(iii) In digital applications (ISDN line cards) the fourth byte contains two bits for the 16kbps ‘D’ channel,

2000 Consumer Microcircuits Limited

The first two bytes consist of two 64kbps data channels, labelled ‘B1’ and ‘B2’, and transfer B

channel data to and from the network.

IOM-2 interface. The data structure within the monitor channel is not defined and will be device

specific. The CMX625 is programmed via the monitor channel (see section 1.5.15).

four ‘Command/Indicate’ (C/I) bits for real time status information and two handshake bits for

supporting the handling of the monitor channel, labelled ‘MR’ and ‘MX’ (monitor transmit and

receive).

(analogue line cards) there is no 'D' channel in the fourth byte so the adjacent C/I channel is

increased to 6 bits. The C/I1 channel bits are used in the same way as for Terminal Mode.

Monitor Channel Handshake Protocol

The handshake procedure is described in section 1.5.4.

Data

125µs

Figure 5 Monitor Handshake Timing (general case)

Byte 1

ACK

Byte 2

ACK

Byte 3

ACK

Byte n

ACK

In analogue applications

EOM

CMX625

D/625/1

CMX625D5 CML Microcircuits, CMX625D5 Datasheet - Page 11

CMX625D5

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