Difference between revisions of "Xeltek"
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Superpro and such | Superpro and such | ||
− | = 5000E = | + | =5000E= |
− | == Hardware == | + | ==Hardware== |
The 5000E is internally composed of an 8 board stack. From top to bottom, the boards are: | The 5000E is internally composed of an 8 board stack. From top to bottom, the boards are: | ||
− | * GND DRV | + | *GND DRV |
− | * V3 DRV | + | *V3 DRV |
− | * V3 (P1-72) DRV | + | *V3 (P1-72) DRV |
− | * V1 DRV | + | *V1 DRV |
− | * V2 DRV | + | *V2 DRV |
− | * IO BOARD | + | *IO BOARD |
− | * MCU BOARD | + | *MCU BOARD |
− | * POWER BOARD | + | *POWER BOARD |
− | === Voltage Pin Driver Boards === | + | ===Voltage Pin Driver Boards=== |
The V1/V2/V3* and GND drive boards share a similar topology. A set of shift registers is used to configure a transistor high or low-side drive. The GND board has two additional relays on pins, possibly for support of some high current device. The V1, V2 and V3 boards use a 74HC4094 shift reg, a ULN2003 transistor array and a high-side transistor to switch the voltage. The V2 and V3 boards incorporate a diode to prevent reverse biasing of the transistor which suggests the V1 voltage is the highest voltage used. | The V1/V2/V3* and GND drive boards share a similar topology. A set of shift registers is used to configure a transistor high or low-side drive. The GND board has two additional relays on pins, possibly for support of some high current device. The V1, V2 and V3 boards use a 74HC4094 shift reg, a ULN2003 transistor array and a high-side transistor to switch the voltage. The V2 and V3 boards incorporate a diode to prevent reverse biasing of the transistor which suggests the V1 voltage is the highest voltage used. | ||
− | === IO Board === | + | ===IO Board=== |
The IO board is just a Spartan XC2S50E FPGA connected to each IO line through a 220 ohm resistor and a diode voltage clamp. Whether the I/O voltage tracks one of the supplies (V3?) is unknown. | The IO board is just a Spartan XC2S50E FPGA connected to each IO line through a 220 ohm resistor and a diode voltage clamp. Whether the I/O voltage tracks one of the supplies (V3?) is unknown. | ||
− | === MCU Board === | + | ===MCU Board=== |
Components: | Components: | ||
− | * AT91R40008 Processor (ARM7, no rom, very few peripherals, external bus interface) | + | *AT91R40008 Processor (ARM7, no rom, very few peripherals, external bus interface) |
− | * TLC7226 Quad DAC | + | *TLC7226 Quad DAC |
− | * EN29LV040A Flash (512kB) | + | *EN29LV040A Flash (512kB) |
− | * "Xeltek AE81" (Almost certainly an OTP FPGA) | + | *"Xeltek AE81" (Almost certainly an OTP FPGA) |
− | * USB Device controller (part # unreadable in photos) | + | *USB Device controller (part # unreadable in photos) |
− | === Power Board === | + | ===Power Board=== |
− | * 3x LM317 + 3x MC34063 switchers | + | *3x LM317 + 3x MC34063 switchers |
− | * Topology not yet reversed | + | *Topology not yet reversed |
− | * Misc op amps | + | *Misc op amps |
− | == Software == | + | ==Software== |
A basic bootloader / USB loader is resident in the on-board flash. The Host software communicates with this USB loader and downloads the actual programming routines into SRAM. | A basic bootloader / USB loader is resident in the on-board flash. The Host software communicates with this USB loader and downloads the actual programming routines into SRAM. | ||
+ | |||
+ | <br /> | ||
+ | |||
+ | == Socket == | ||
+ | <nowiki>https://www.xeltek.com/resources/technical-articles/socket-adapters/socket-adapters-en/</nowiki> | ||
+ | |||
+ | * '''DX Adapters:''' SuperPro 6100, SuperPro 6104GP | ||
+ | * '''EX Adapters:''' SuperPro 7000 | ||
+ | * '''FX Adapters:''' SuperPro 7100 | ||
+ | * '''GX Adapters:''' SuperPro 7500 | ||
+ | * '''CX Adapters:''' SuperPro 5000, SuperPro 5004GP, SuperPro 6000, SuperPro 6000E, SuperPro 6004GP | ||
+ | * '''SA Adapters:''' SuperPro 610P, SuperPro 611S |
Revision as of 07:29, 10 September 2019
Superpro and such
Contents
5000E
Hardware
The 5000E is internally composed of an 8 board stack. From top to bottom, the boards are:
- GND DRV
- V3 DRV
- V3 (P1-72) DRV
- V1 DRV
- V2 DRV
- IO BOARD
- MCU BOARD
- POWER BOARD
Voltage Pin Driver Boards
The V1/V2/V3* and GND drive boards share a similar topology. A set of shift registers is used to configure a transistor high or low-side drive. The GND board has two additional relays on pins, possibly for support of some high current device. The V1, V2 and V3 boards use a 74HC4094 shift reg, a ULN2003 transistor array and a high-side transistor to switch the voltage. The V2 and V3 boards incorporate a diode to prevent reverse biasing of the transistor which suggests the V1 voltage is the highest voltage used.
IO Board
The IO board is just a Spartan XC2S50E FPGA connected to each IO line through a 220 ohm resistor and a diode voltage clamp. Whether the I/O voltage tracks one of the supplies (V3?) is unknown.
MCU Board
Components:
- AT91R40008 Processor (ARM7, no rom, very few peripherals, external bus interface)
- TLC7226 Quad DAC
- EN29LV040A Flash (512kB)
- "Xeltek AE81" (Almost certainly an OTP FPGA)
- USB Device controller (part # unreadable in photos)
Power Board
- 3x LM317 + 3x MC34063 switchers
- Topology not yet reversed
- Misc op amps
Software
A basic bootloader / USB loader is resident in the on-board flash. The Host software communicates with this USB loader and downloads the actual programming routines into SRAM.
Socket
https://www.xeltek.com/resources/technical-articles/socket-adapters/socket-adapters-en/
- DX Adapters: SuperPro 6100, SuperPro 6104GP
- EX Adapters: SuperPro 7000
- FX Adapters: SuperPro 7100
- GX Adapters: SuperPro 7500
- CX Adapters: SuperPro 5000, SuperPro 5004GP, SuperPro 6000, SuperPro 6000E, SuperPro 6004GP
- SA Adapters: SuperPro 610P, SuperPro 611S