July 27, 2013

NC393 development progress – 2

by Andrey Filippov

10385 - Power Supply Board layout

10385 – Power supply board layout

There is a small update to the previous post – circuit design and the PCB layout is done for the two companion boards. And it lead to some re-design on the system board. When working on the power supply board (it provides camera with the regulated 3.3V from the external source) I realized that it will have to hang on just two screws – not good for a rather heavy board with Traco DC/DC module (same size as the one currently used in Elphel NC353L camera). The 10393 system board and the 10389 Interface/SSD boards will be mounted on two sides of the aluminum heat sink plate (CNC-ed to match component heights) and the smaller 10385 will sit on top of the 10393, and all the 10385 mount screws have to go through the system board. So I had to add additional holes near the middle of the 10393. That in turn required to move the 40-pin inter-board connector that carries SATA, USB, synchronization and additional general purpose signals to the 10389. So I had to re-route part of the design, but it was a right time to do as none of the boards was released yet leaving the freedom for such modifications. These new holes will also improve the mounting of the heat sink to the Zynq chip (the large white square on the 10393 layout below).
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July 13, 2013

NC393 development progress

by Andrey Filippov

Development of the NC393 is now started, at last – last 6 weeks I’m working on it full time. It is still a long way ahead before the new camera will replace our current model 353, but at least the very first step is completed – I just finished the PCB layout of the system board.

10353 System Board PCB layout

10393 System Board PCB layout

There were not so many changes to the specs/features that were planned and described in the October 2012 post, the camera will be powered by Xilinx Zynq SoC (XC7Z030-1FBG484C to be exact) that combines high performance FPGA with a dual ARM CPU and generous set of built-in peripherals. It will have 1GB of on-board system memory and 512MB of additional dedicated video/FPGA memory  (the NC353 has 64MB each of them). Both types of memory consist of the same 256Mx16 DDR3 chips – 2 for the system (to use full available memory bus width of 32 bits) and one for the FPGA.

The main class of the camera applications remains to be a multi-sensor. Even more so – the smallest package of the Zynq 7030 device turned out to have sufficient number of I/Os to accommodate 4 sensor ports – originally I planned only 3 of them. These sensor ports are fully compatible with our current 5MPix sensor boards and with the existent 10359 sensor multiplexer boards – with such multiplexers it will be possible to control up to 12 sensors with a single 10393. Four of the connectors are placed in two pairs on both sides of the PCB, so they overlap on the layout image.

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