The ZTEX SDK includes Default Firmwares for all Series 2 FPGA Boards. They define a set of compatible features:
The feature-rich communication interface makes firmware development obsolete in may cases, e.g. most examples of the SDK use default firmwares. Because all functions are compatible the host software can be made board independent.
A more detailed overview is given by the following block diagram
There are 3 HDL modules which are located in directory default/fpga-fx[2|3]/
of the SDK:
This module implements the high-speed communication for both directions using the EZ-USB Slave FIFO interface (FX2) or GPIF2 (FX3). It provides the following features:
The interface is compatible for all FPGA Boards and listed below. A brief description is given in the comments. The hardware pins are omitted because they depend from the EZ-USB variant and are directly connected to the interface of the top level module. In order to learn more about the usage please take a look into the top level module of the memfifo examle.
module ezusb_io ( output ifclk, input reset, // asynchronous reset input output reset_out, // synchronous reset output // pins input ifclk_in, inout [15:0] fd, output reg SLWR, SLRD, // low active output reg SLOE, PKTEND, // low active input EMPTY_FLAG, FULL_FLAG, // almost full/empty due to flag latency of several clocks, low active // signals for FPGA -> EZ-USB transfer input [15:0] DI, // data written to EZ-USB input DI_valid, // 1 indicates data valid; DI and DI_valid must be hold if DI_ready is 0 output DI_ready, // 1 if new data are accepted input DI_enable, // setting to 0 disables FPGA -> EZ-USB transfers input pktend_arm, // 0->1 transition enables the manual PKTEND mechanism: // PKTEND is asserted as soon output becomes idle // recommended procedure for accurate packet transfers: // * DI_valid goes low after last data of package // * monitor PKTEND and hold DI_valid until PKTEND is asserted (PKTEND = 0) input [15:0] pktend_timeout, // automatic PKTEN assertion after pktend_timeout*65536 clocks of no output data // setting to 0 disables this feature // signals for EZ-USB -> FPGA transfer output reg [15:0] DO, // data read from EZ-USB output reg DO_valid, // 1 indicated valid data input DO_ready, // setting to 1 enables writing new data to DO in next clock; DO and DO_valid are hold if DO_ready is 0 // set to 0 to disable data reads // debug output output [6:0] status );
This module is intended for low speed communication, such as transfer of configuration data.It has an easy-to-use SRAM like interface and is used in the ucecho example. Particular features are:
The user-interface is the same for both EZ-USB variants. Only the hardware pins depends on type of FPGA-Board and are omitted here (copy it from the examples). A short description is given in the comments.
// all directions are seen from FPGA module ezusb_lsi ( // control signals input clk, // at least 24MHz input reset_in, // high-active asynchronous reset output reg reset, // synchronous reset output // hardware pins // ... // user interface output reg [7:0] in_addr, // input address output reg [31:0] in_data, // input data output reg in_strobe, // 1 indicates new data received (1 for one cycle) output reg in_valid, // 1 if data is valid output reg [7:0] out_addr, // output address input [31:0] out_data, // output data output reg out_strobe // 1 indicates new data request (1 for one cycle) );
The default interface implements 4 freely usable and independent bidirectional GPIO pins. It is used in the memfifo examle. The user interface is independent from FPGA board and listed an described (see the comments) below. Just the hardware pins differ (omitted below).
// all directions are seen from FPGA module ezusb_gpio ( // control signals input clk, // system clock, minimum frequency is 24 MHz // hardware pins // ... // interface output reg [3:0] in, // inputs input [3:0] out // wired-OR outputs: GPIO's not used for output must be 0 );
Default Firmware has several configurable properties which can be used to identify devices, e.g. if several FPGA Boards are running on the same host.
All of them can be set using FWLoader
.
Property | FWLoader parameter |
---|---|
USB vendor ID (must be purchased from USB IF) and product ID | -su <VID> <PID> |
Product name | -sp <string> |
Custom serial number (up to 10 characters) | -ss <sn string> |
Default unique serial number stored in MAC EEPROM | -ss 0000000000 |