ADN4690E/ADN4692E/ADN4694E/ADN4695E Data Sheet
Rev. B | Page 16 of 20
APPLICATIONS INFORMATION
M-LVDS extends the low power, high speed, differential signal-
ing of LVDS (low voltage differential signaling) to multipoint
systems where multiple nodes are connected over short distances
in a bus topology network.
With M-LVDS, a transmitting node drives a differential signal
across a transmission medium such as a twisted pair cable. The
transmitted differential signal allows other receiving nodes that
are connected along the bus to detect a differential voltage that
can then be converted back into a single-ended logic signal by
the receiver.
The communication line is typically terminated at both ends
by resistors (R
T
), the value of which is chosen to match the
characteristic impedance of the medium (typically 100 Ω).
For half-duplex multipoint applications such as the one shown
in Figure 36, only one driver can be enabled at any time. Full-
duplex nodes allow a master slave topology, as shown in Figure 37.
In this configuration, a master node can concurrently send and
receive data to/from slave nodes. At any time, only one slave
node can have its driver enabled to concurrently transmit data
back to the master node.
RO
NOTES
1. MAXIMUM NUMBER OF NODES: 32.
2. R
T
IS EQUA
L
T
O THE CHARACTERISTIC IMPEDANCE OF THE CABLE USED.
RE
A
B
R
T
R
T
ADN4694E
DE
DI
RO RE
A
B
ADN4694E
DE DI
RO
RE
A
B
ADN4694E
DE
DI
RO
RE
A
B
ADN4694E
DE
DI
10471-035
Figure 36. ADN4694E Typical Half-Duplex M-LVDS Network (Type 2 Receivers with Threshold Offset for Bus-Idle Fail-Safe)
RO
NOTES
1. MAXIMUM NUMBER OF NODES: 32.
2. R
T
IS EQUAL TO THE CHARACTERISTIC IMPEDANCE OF THE CABLE USED.
RE
A
B Z Y
MASTER SL
AVE SLAVE
SLAVE
R
T
R
T
ADN4695E
DE DI
RO RE DE DI
RO RE DE DI
A B Z
Y
ADN4695E
A B Z
Y
ADN4695E
A B Z Y
ADN4695E
R
T
R
T
RO RE DE
DI
10471-036
R
D
R
D
R
D
R
D
Figure 37. ADN4695E Typical Full-Duplex M-LVDS Master-Slave Network (Type 2 Receivers with Threshold Offset for Bus-Idle Fail-Safe)