From eb6ddcb662db6c256c04f539d96e0faace2f55c1 Mon Sep 17 00:00:00 2001 From: Boris Murmann <62622760+bmurmann@users.noreply.github.com> Date: Tue, 7 Mar 2023 16:51:28 -0800 Subject: [PATCH] Update SPECS.md --- SPECS.md | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/SPECS.md b/SPECS.md index bf77171..1558a18 100644 --- a/SPECS.md +++ b/SPECS.md @@ -8,7 +8,7 @@ The purpose of this page is to seed some ideas on what the “lab bench on a ch To our knowledge, there aren't any published prior-art “lab bench on a chip” designs that we can build on. However, we can draw some inspiration from a similar system that was designed for PCB measurements. The [Analog Discovery 2](https://digilent.com/reference/test-and-measurement/analog-discovery-2/start) is a multifunction instrument that has all the functionality we are looking for (and more) and comes with detailed [schematics](https://digilent.com/reference/test-and-measurement/analog-discovery-2/hardware-design-guide). While this documentation provides a first-order idea on what we should build, the circuit design style will be somewhat different for on-chip circuitry. Additionally, it will be difficult to match all specifications within a reasonable area budget and given the 180 nm technology that we have at our disposal. -Generally, think of this entire project is an experiment. We want to explore what a team of enthusiasts, spread across the globe, can do within the new environment of open-source IC design. Even if we don't succeed at building the complete target system in our first attempt, the community can re-use the various blocks that we design for future iterations or for an entirely different purpose. +Generally, think of this entire project as an experiment. We want to explore what a team of enthusiasts, spread across the globe, can do within the new environment of open-source IC design. Even if we don't succeed at building the complete target system in our first attempt, the community can re-use the various blocks that we design for future iterations or for an entirely different purpose. What follows below are initial thoughts and baseline specs for each one of our major system components. All teams are encouraged to exceed these requirements and explore what is possible! @@ -60,4 +60,4 @@ For the DAC, it may be best to aim for a current steering topology (also used in **6. Digital interface** -One of the primary goals here is to enable a convenient USB interface to a host computer. Teams working on this aspect should design both the on- and off-chip digital circuitry. For the off-chip board, we can consider the lowest cost boards from [Digilent](https://digilent.com/shop/boards-and-components/system-boards/introductory-boards/?sort=priceasc). The USB UART provided [here](https://github.com/ricynlee/cmod-a7-uart-sram-test) could be useful for establishing the communication. \ No newline at end of file +One of the primary goals here is to enable a convenient USB interface to a host computer. Teams working on this aspect should design both the on- and off-chip digital circuitry. For the external board, we can consider the lowest cost options from [Digilent](https://digilent.com/shop/boards-and-components/system-boards/introductory-boards/?sort=priceasc). The USB UART provided [here](https://github.com/ricynlee/cmod-a7-uart-sram-test) could be useful for establishing the communication.