Bus Blaster v4 design overview

Bus Blaster v4 design overview

Bus Blaster v4 is an experimental, high-speed JTAG debugger for ARM processors, FPGAs, CPLDs, flash, and more. Thanks to a reprogrammable buffer, a simple USB update makes Bus Blaster v4 compatible with many different JTAG debugger types in the most popular open source software.

  • Based on FT2232H with high-speed USB 2.0
  • Buffered interface works with 3.3volt to 1.5volt targets
  • Reprogrammable buffer is compatible with multiple debugger types
  • Compatible with ‘jtagkey‘, ‘KT-link‘ programmer settings in OpenOCDurJTAG, and more
  • Should support Serial Wire Debug when available
  • Mini-CPLD development board: self programmable, extra CPLD pins to header
  • Open source (CC-BY-SA)

Bus Blaster v4 is a redesign of v3/v2 that supports SWV, an obscure extension to a reduced pincount JTAG protocol most people will never use. Unless you need it, stick with v3 and save a few bucks!

  • Can now support the SWV feature of Cortex microcontroller for advance debugging when software support is available
  • SWV is little used and not currently supported in software, most users will be better off with Bus Blaster v4 available here
  • Fitted in a DP9056 (90x56 mm) standard PCB
  • Added series resistors to input and output pins to protect against damage and noise

Bus Blaster v4 is available now for $45. Each unit is tested with a real JTAG target before it ships.

Buffer logic

New buffer logic is designed using simple schematic entry, Verilog, or VHDL, and the free ISE Webpack software from Xilinx.

Here are two examples of buffer logic to give you an idea how flexible the design can be.

Buffer logic for Bus Blaster v4 and Bus Blaster v2/v3 ARE NOT COMPATIBLE!

JTAGkey compatible

KT-link compatible

时间: 2024-12-20 10:43:55

Bus Blaster v4 design overview的相关文章

[FE] Responsive Web Design Overview

布局特点 1. 单列布局 vs 水平布局 手机屏幕宽度较小,因此多采用单列布局.    反观桌面网页设计,为了利用宽度,往往使用各种水平布局的组件,诸如水平导航栏,水平按钮组,水平分页等.然而水平布局的组件,在移动端中,如果设备宽度不够,会导致组件割裂换行,影响视觉效果.    因此RWD的基本思路之一,桌面使用水平布局,移动端使用单列布局. 实现参考     按钮组    http://zrss.github.io/ResponsiveDesign/templates/rw-btn-group

Chapter 2 Conceptual design

A cylindrical scanning setup with an optical distance probe is non-contact, universal and fast. With a probe with 5 mm range, circular tracks on freeform surfaces can be measured rapidly with minimized system dynamics. By applying a metrology frame r

jtagger Versatile multiprogrammer for FPGAs, MCUs, etc.

jtagger Versatile multiprogrammer for FPGAs, MCUs, etc. Well, it's not really just a jtagger, but I've been calling it that. It's also been christened the Bit Quacker... uh, because it quacks? *shrug* The basis for this design is sort of like the Bus

Drones Jammer

Drones Jammer What are Drones  Jammers? Commonly Called signal blockers, devices used to block and interfere with radio communication signals What are Civilian (Commercial) Drones? Also know as unmanned aerial vehicles (UAV), are aircrafts without a

Nagios-NRPE Documentation(译文)

1. INTRODUCTION(介绍) a) Purpose(目的) The NRPE addon(插件) is designed to allow you to execute(履行,执行) Nagios plugins on remote Linux/Unix machines. (NRPE插件设计的目的是允许你来运行存在于远程linux/Unix主机上的Nagios plugins) The main reason for doing this is to allow Nagios to

2-node hyperconverged cluster with Windows Server 2016 (转)

摘自:http://www.tech-coffee.net/2-node-hyperconverged-cluster-with-windows-server-2016/ Design overview In this part I'll talk about the implemented hardware and how are connected both nodes. Then I'll introduce the network design and the required soft

Open Sourcing Kafka Monitor

https://engineering.linkedin.com/blog/2016/05/open-sourcing-kafka-monitor     https://github.com/linkedin/kafka-monitor https://github.com/Microsoft/Availability-Monitor-for-Kafka     Design Overview Kafka Monitor makes it easy to develop and execute

vtpm使用手册

Copyright (c) 2010-2012 United States Government, as represented bythe Secretary of Defense.  All rights reserved.November 12 2012Authors: Matthew Fioravante (JHUAPL), Daniel De Graaf (NSA) This document describes the virtual Trusted Platform Module

Chapter 3 Motion system

The motion system positions the probe relative to the product in 4 degrees of freedom. The product is mounted on an air bearing spindle (), and the probe is positioned over it in radial (r), vertical (z) and inclination (ψ) direction by the R-stage,