Owner manual
Table Of Contents
- Features & Description
- Table of Contents
- List of Figures
- List of Tables
- 1. Initial Setup
- 2. Hardware Description
- 2.1 Block Diagram
- 2.2 Analog Hardware
- 2.3 Digital Hardware
- 2.4 Power Supplies
- 2.5 PCB Layout
- 3. Software Description
- 4. Bill Of Materials
- 5. Layer Plots
- 6. Schematics
- 7. Revision History
CDB5378
30 DS639DB4
Telemetry signals enter CDB5378 through RS-485 transceivers, which are differential current mode trans-
ceivers that can reliably drive long distance communication. Data passes through the RS-485 transceiv-
ers to the microcontroller I2C interface and the clock and synchronization inputs.
2.3.5.1 CLK, SYNC
Clock and synchronization telemetry signals into CDB5378 are received through RS-485 twisted pairs.
These signals are required to be distributed through the external system with minimal jitter and timing
skew, and so are normally driven through high-speed bus connections.
Synchronization of the measurement channel is critical to ensure simultaneous analog sampling across
a network. Several options are available for connecting a SYNC signal through the RS-485 telemetry to
the digital filter.
A direct connection is made when the SYNC_IO signal is received over the dedicated RS-485 twisted pair
and sent directly to the digital filter SYNC pin through jumper J56. The incoming SYNC_IO signal must be
synchronized to the network at the transmitter since no local timing adjustment is available.
A microcontroller hardware connection is made when the SYNC_IO signal is received over the dedicated
RS-485 twisted pair and detected by a microcontroller interrupt. The microcontroller can then use an in-
ternal counter to re-time the SYNC_MC signal output to the digital filter SYNC input as required.
A microcontroller software connection is made when the SYNC_MC signal output is created by the micro-
controller on command from the system telemetry. The microcontroller can use an internal counter to re-
time the SYNC_MC signal output to the digital filter SYNC input as required.
Specification Value
RS-485 Transceiver - Linear Tech LTC1480IS8
Surface Mount Package Type SOIC-8, 5mm x 6mm
Supply Voltage, Quiescent Current
3.3V, 600 µA
Maximum Data Rate 2.5 Mbps
Transmitter Delay, Receiver Delay 25 - 80 ns, 30 - 200 ns
Transmitter Current, Full Termination (60 Ω)
25 mA
Transmitter Current, Half Termination (120 Ω)
13 mA
Specification Value
Synchronous Inputs, 2 wires each CLK±, SYNC±
Specification Value
Distributed SYNC Signal Synchronization ± 240 ns
Distributed Clock Synchronization ± 240 ns
Analog Sampling Synchronization Accuracy ± 480 ns