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Ver. 1.12 November 17, 2020
- Fixed a problem that occurred after replacing batteries during a sensor error status condition, where a sensor error notification could be incorrectly sent when an upper or lower limit warning was transmitted.
Ver. 1.11 June 17, 2020
- Fixed a problem that occurred when communication with the sensor failed due to external noise, where the previous measurement was displayed.
Ver. 1.10 September 08, 2017
- Fixed a problem that caused a warning not to be detected in the following conditions:
- When operations such as recording start or warning setting changes are performed on the logger whose battery power at that time was too low to send a warning.
- When operations such as recording start or warning setting changes are performed on the logger on which a warning occurred while in AP mode.
- When the logger enters sleep mode (“SLP” display on LCD), the operation log is now only recorded and displayed once.
- When the battery runs low and automatic data upload stops, the error log is now only recorded and displayed once.
Ver. 1.09 July 28, 2017
- Fixed a problem that occurred when data transmission failed due to wireless network connection error, where the error indication was not displayed correctly on the logger's LCD screen and in the log file.
- Fixed a problem that occurred on some Android devices without SIM cards, where direct wireless communication with the logger failed if the wireless network was heavily used.
Ver. 1.08 November 22, 2016
- Fixed a problem where the measurement value was not displayed in the warning email when a warning occurred before changes made via T&D WebStorage Service to the warning settings were applied to the logger.
- Improved the correction accuracy when receiving time information from the server.
Ver. 1.07 February 12, 2016
- Fixed a problem that caused the Access Point 3 set in the Wireless LAN Settings not to function properly as an access point.
Ver. 1.06 August 24, 2015
- When a warning email can not be issued due to communication failures or other issues, the unsent warning email will now be sent at the time of the next transmission of data.
- Fixed a problem where a warning email might be sent in the first transmission after changing the warning email setting to OFF.
- Fixed a problem that occurred when changing the Wireless LAN Settings from 'DHCP' to a 'static IP address' for auto data upload, where data transmission sometimes failed.
- Fixed a problem where it would take time for the new settings to be applied after changing the auto-upload interval via T&D WebStorage Service.
- Fixed a problem that occurred when a correct network name and an incorrect password have been entered in the Wireless LAN Settings, where the user did not receive the expected error code ('Cannot find Access Point' error).
Ver. 1.05 April 16, 2015
- Added support for proxy server.
- Added support for 'T&D Data Server'.
Ver. 1.04 April 07, 2014
- Fixed a problem that occurred when turning off the TR-72wf/72wf-H, the device would freeze with [OFF] displayed on the LCD.
- Updated so that the device resumes recording automatically by replacing the batteries if the batteries run out and the LCD display goes blank during a recording session.
Ver. 1.02 October 01, 2013
- First Release
This page describes design principles and best practices for Windows Drivers.
DCH Design Principles
There are three design principles to consider for a Windows Driver to be DCH-compliant:
Declarative (D): Install the driver by using only declarative INF directives. Don't include co-installers or RegisterDll functions.
Componentized (C): Edition-specific, OEM-specific, and optional customizations to the driver are separate from the base driver package. As a result, the base driver, which provides only core device functionality, can be targeted, flighted, and serviced independently from the customizations.
Hardware Support App (H): Any user interface (UI) component associated with a Windows Driver must be packaged as a Hardware Support App (HSA) or preinstalled on the OEM device. An HSA is an optional device-specific app that's paired with a driver. The application can be a Universal Windows Platform (UWP) or Desktop Bridge app. You must distribute and update an HSA through the Microsoft Store. For details, see Hardware Support App (HSA): Steps for driver developers and Hardware Support App (HSA): Steps for app developers.
The acronym 'DCH' refers to the principles listed above. Please refer to the DCH-Compliant Driver Package Example page to see how a driver sample can apply DCH design principles.
Driver packages that are DCH-compliant contain an INF file and binaries that install and run on Universal Windows Platform (UWP)-based editions of Windows 10. They also install and run on other editions of Windows 10 that share a common set of interfaces.
DCH-compliant driver binaries can use KMDF, UMDF 2, or the Windows Driver Model (WDM).
DCH-compliant drivers consist of the following parts:
- A base driver
- Optional component packages
- An optional hardware support app
The base driver contains all the core functionality and shared code. The optional component packages can contain customizations and additional settings.
Typically, a device manufacturer, or independent hardware vendor (IHV), writes the base driver. Then, a system builder, or original equipment manufacturer (OEM), provides any optional component packages.
After an IHV has certified the base driver package, it can be deployed on all OEM systems. Because a base driver package can be used across all systems that share a hardware part, Microsoft can test the base driver package broadly via Windows Insider flighting, rather than limiting distribution to specific machines.
The OEM validates only the optional customizations that it provides for the OEM system.
To create a driver package that follows DCH design principles, follow these steps:
- Create an INF file for your driver:
- Review the list of INF sections and directives that are valid in Windows Driver packages.
- Use the InfVerif tool to verify that your driver package's INF file follows Declarative (D) requirements for Windows Drivers. It should pass
- Ensure that any optional component packages that do not contain core driver functionality are separated from the base driver package.
- Hardware support applications associated with your driver package must be distributed through the Microsoft Store.
Drivers To Detect Hard Disk
Drivers & Downloa
Drivers To Dfw Airport
If you're using the Windows Driver Kit (WDK) Version 2004 with the latest available Visual Studio, set the Target Platform value in the driver project properties to
Windows Driver. This automatically adds the correct libraries, and it runs the proper INF validation and ApiValidator as a part of build. To do this:
- Open the driver project properties.
- Select Driver Settings.
- Use the drop-down menu to set Target Platform to
If your INF performs any custom setup actions that depend on the target platform, consider separating them out into an extension INF. You can update an extension INF independently from the base driver package to make it more robust and serviceable. For more information, see Using an extension INF file.
If you want to provide an application that works with your device, include a UWP app. For more information, see Hardware Support App (HSA): Steps for driver developers. An OEM can preload such an app by using DISM - Deployment Image Servicing and Management. Or, users can manually download the app from the Microsoft Store.
In the INF DestinationDirs section, set the destination directories to dirid 13 to make the driver run from the driver store. This setting won't work for some devices.