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SLG4DVKADV

GreenPAK Advanced Development Board

adv_development_platform.png

Working in tandem with the GreenPAK Designer software, GreenPAK Advanced Development Board allows designers to:

  • Program custom samples in minutes
  • Test GreenPAK projects in-circuit
  • Develop using any GreenPAK device

Features

USB interface

MacOS, Windows and Linux compatible

Programming and Emulation

Gated expansion header for connection to external test equipment

Integrated signal and logic generators

LEDs for visual indication

Kit Contents

Advanced Development Board

USB cable

Quick Start Guide

Please note: Socket Adapters should be ordered separately.

Compatible Devices

SLG46xxxx-SKT (Socket Kit - includes Socket Adapter and 50 Samples)

SLG4SAxx-xxXxx (Socket Adapter)

SLG4TAxx-SLG46xxx (Training Adapter Board)

SLG46xxxx (Samples)

GreenPAK Designer (included in Go Configure™Software Hub)
Name Date Version
Go Configure™Software Hub for Windows, macOS or Linux(7.58 KB)
User guides and manuals
Name Date Version
Advanced Development Kit Quick Start Guide (249.34 KB) 11/09/2020 1.2
GreenPAK Advanced Development Platform User Guide (2.66 MB) 14/09/2021 2.3
Video thumbnail, click to open and play

GreenPAK Configurable Mixed-signal IC Introduction

Video thumbnail, click to open and play

GreenPAK Designer Software

Video thumbnail, click to open and play

GreenPAK Development Platform

Video thumbnail, click to open and play

Choosing the Right GreenPAK

View the full list of the GreenPAK videos in our Training Video Library.

GreenPAK Development Board

Provides full programming, emulation and testing functions for GreenPAK devices. For use with SLG46xxxX-SKT sockets kits.

Working in tandem with the GreenPAK Designer software, GreenPAK Advanced Development Board allows designers to:

  • Program custom samples in minutes
  • Test GreenPAK projects in-circuit
  • Develop using any GreenPAK device
Suitable for:
  • Programming
  • Emulation
  • Signal and Logic Generators
Features:
  • USB interface
  • MacOS, Windows and Linux compatible
  • Programming and Emulation
  • Gated expansion header for connection to external test equipment
  • Integrated signal and logic generators
  • LEDs for visual indication
GreenPAK Advanced Development Board
This item is out of stock.
$99.00
greenpak_32_pinadapter.png

32-pin to 20-pin adapter for SLG468x development on SLG4DVKADV

SLG4AB2
$10.00
SLG4DVKINTRO Kit Revised

GreenPAK Introduction Kit. Included are: SLG4DVKADV (GreenPAK Advanced Development Board), SLG4SA-DIP (Adapter for GreenPAK Advanced Development Board) , two each of the following DIP Proto Boards (SLG46120V-DIP, SLG46721V-DIP, SLG46620V-DIP, SLG46537V-DIP, SLG46826V-DIP) and USB cable.

SLG4DVKINTRO
$79.00
SLG4TA20SP SLG46826

Training Adapter Board for SLG46826.

SLG4TA20SP-SLG46826
$12.00
slg4sa8-10x12.jpg

Socket adapter. For use with:

  • GreenPAK Advanced Development Board
  • STQFN-8 (1.0 x 1.2 mm) GreenPAK
SLG4SA8-10x12
$20.00
SLG4SA20 20x30

Socket adapter. For use with:

  • GreenPAK Advanced Development Board
  • MSTQFN-29 (3.0 x 3.0 mm) GreenPAK
SLG4SA29-30x30
$20.00
SLG4SA12 16x16

Socket adapter. For use with :

  • GreenPAK Advanced Development Board
  • STQFN-12 (1.6 x 1.6 mm) GreenPAK
SLG4SA12-16x16
$20.00
SLG4SA12DS 16x16

Socket adapter. For use with :

  • GreenPAK Advanced Development Board
  • STQFN-12 (1.6 x 1.6 mm) Dual Supply GreenPAK
SLG4SA12DS-16x16
$20.00
SLG4SA14 16x20

Socket adapter. For use with :

  • GreenPAK Advanced Development Board
  • STQFN-14 (1.6 x 2.0 mm) GreenPAK
SLG4SA14-16x20
$20.00
SLG4SA14 16x25

Socket adapter. For use with :

  • GreenPAK Advanced Development Board
  • STQFN-14 (1.6 x 2.5 mm) GreenPAK
SLG4SA14-16x25
$20.00
SLG4SA14 20x22

Socket adapter. For use with:

  • GreenPAK Advanced Development Board
  • STQFN-14 (2.0 x 2.2 mm) GreenPAK
SLG4SA14-20x22
$20.00
SLG4SA14DS 20x22

Socket adapter. For use with:

  • GreenPAK Advanced Development Board
  • STQFN-14 (2.0 x 2.2 mm) Dual Supply GreenPAK
SLG4SA14DS-20x22
$20.00
SLG4SA16 16x20

Socket adapter. For use with:

  • GreenPAK Advanced Development Board
  • MSTQFN-16 (1.6 x 2.0 mm) GreenPAK
SLG4SA16-16x20
$20.00
SLG4SA16LL

Socket adapter. For use with:

  • GreenPAK Advanced Development Board
  • MSTQFN-16 (1.6 x 1.6 mm) GreenPAK
SLG4SA16LL-16x16
$20.00
SLG4SA20 20x30

Socket adapter. For use with:

  • GreenPAK Advanced Development Board
  • STQFN-20 (2.0 x 3.0 mm) GreenPAK
SLG4SA20-20x30
$20.00
SLG4SA20DS 20x30

Socket adapter. For use with:

  • GreenPAK Advanced Development Board
  • STQFN-20 (2.0 x 3.0 mm) Dual Supply GreenPAK
SLG4SA20DS-20x30
$20.00
SLG4SA22 20x22

Socket adapter. For use with:

  • GreenPAK Advanced Development Board
  • MSTQFN-22 (2.0 x 2.2 mm) Dual Supply GreenPAK
SLG4SA22-20x22
$20.00
SLG4SA22 20x22

Socket adapter. For use with:

  • GreenPAK Advanced Development Board
  • MSTQFN-22 (2.0 x 2.2 mm) Dual Supply GreenPAK
SLG4SA22DS-20x22
$20.00
SLG4SA-DIP

GreenPAK DIP Adapter for GreenPAK Advanced Development Board. Allows the use of the SLG46xxxV-DIP Proto boards with the GreenPAK Advanced Development Board. Acts as the bridge between Advanced and DIP Development Platforms.

SLG4SA-DIP
$2.00
Back to results

GreenPAK and GreenFET

2 months ago

SLG46824 thinks its SLG46826

Posted by jmcgarvey.d3en… 90 points 4 replies
0 upvotes

When testing with low i2c pullup voltage, I corrupted two 46824 devices. Now Designer says they are 46826's.

Read of NVM shows reserved bit 1632 = 0, where it is 1 on a blank 46824. I could not find a way to change this bit to 1.

Is there some way to program these parts so that Designer correctly identifies them?

 

 

2 months ago

olehs

Hi James, 

Sorry for the delayed response, but there is no way to change this bit without damaging the chip

Best regards, 

olehs 

2 months ago

jmcgarvey.d3en… 90 points

OK. I'm not worried about those two devices, but I do want to ensure that devices can't be trashed like that in production.

I'm planning to program the devices in-circuit and I want to be able to update the design in the field. I'm thinking the safest approach is to write-protect the NVM and set protection lock at the factory. Then I would always configure the device registers via i2c after power up. Am I correct that this procedure will guarantee the device can't be permanently corrupted by bad i2c transactions in service?

accepted answer!

2 months ago

olehs

Hi James,

If you lock the design for NVM write, it will guarantee that no I2C bus can change the initial design data. Of course, you can work with RAM registers and reconfigure design however you want.

Best regards, 

Oleh Sapiha 

2 months ago

jmcgarvey.d3en… 90 points

Thanks!