The popular QK30 device has an additional and enhanced model with embedded Near Field Communication (NFC) reading function. Besides all the familiar advantages of the QK30 like quick scanning of barcodes, QR Codes and all types of 2D codes on smartphones or printed on paper, the QK30-IC additionally is an IC card reader supporting NFC technology. DENSO WAVE serves as a leader in developing and manufacturing automatic data capture devices for QR codes and IC cards and industrial robots (FA equipment), etc. Active USB-COM Port Driver Installation Guide （Comes with the driver）. Turn on the device manager and check the COM port. Legacy COM Port Drivers The original versions of Woolich Racing devices require FTDI COM port driver be installed, you can download the FTDI drivers below FTDI COM Port Drivers USB Denso v1 USB Mitsubishi v1 Log Box (Denso) v1 STMicroelectronics COM Port Drivers Early firmware versions of Log Box Pro (Mitsubishi) and USB (Mitsubishi) use the following STMicroelectorincs COM Port Drivers. STMicroelectronics x86 COM Port Drivers STMicroelectronics x64 COM Port Drivers. (1) Do not connect an antenna, a controller or a cable that is not specified by DENSO Wave. (2) Network range may vary according to target tag. Network range is a reference value and this may vary accordingly, depending on the actual environmental conditions.All specifications subject to change without notice.

1. Drivers Denso Wave Port Devices Download
2. Denso Wave Robot
3. Drivers Denso Wave Port Devices Bluetooth
4. Denso Wave Japan
5. Drivers Denso Wave Port Devices Replacement

Drivers Denso Wave Port Devices Download

COM Port Stress Test

COM Port Stress Test is a tool for testing a COM or RS232 port (device), that generates a serial stream of data with random communication settings. Stress test put a greater emphasis on robustness and error handling under a heavy load, than on what would be considered correct behavior under normal circumstances in your application.

• Publisher: AGG Software
• Home page:www.aggsoft.com
• Last updated: May 26th, 2020

DENSO WAVE Active USB-COM Port

This program installs the device drivers required by the DENSO WAVE barcode and QR-code scanners. It supports 2D Code Scanner, Bar Code Handy Scanner, Bar Code Handy Terminal, Communication Unit, and Bluetooth Communication Adapter from the manufacturer.

• Publisher: DENSO WAVE INCORPORATED
• Home page:www.denso-wave.com
• Last updated: November 17th, 2015

Geomagic Touch Device Drivers

Geomagic Touch Device Drivers is an application which allows you to control Touch Device. Before installing the new Geomagic Touch Device Driver, you must first uninstall any previous versions of the Phantom Device Driver (PDD) that you have installed on your system.

• Publisher: 3D Systems,Inc.
• Home page:support1.geomagic.com
• Last updated: April 9th, 2014

IR Power

With IR Power you can control your computer like your TV. Using same TV remote you can control various multimedia application running on your computer. By simply pressing buttons on your remote you can command your media applications to pause/play/change tracks/change volume etc.

• Publisher: InnovativeLogics
• Home page:www.innovativelogics.com
• Last updated: May 14th, 2010

STermPro

Next generation serial port monitor / terminal / automation tool. Control serial device with parameters, not bytes. Just select protocol. STermPro takes care of the rest. Check device output as parameters of protocol, not just a sequence of bytes. Set up auto-answers for received protocol parameters.

• Publisher: MT-Soft
• Last updated: November 14th, 2011

Free Virtual Serial Ports Emulator

VSPE is intended to help software engineers and developers to create/debug/test applications that use serial ports. It is able to create various virtual devices to transmit/receive data. Unlike regular serial ports, virtual devices have special capabilities: for example, the same device can be opened more than once by different applications, that can be useful in many cases.

• Publisher: Eterlogic Software
• Last updated: October 23rd, 2020

EzCom2Web

Lightweight HTTP server and a script engine (like PHP or ASP) in one application .It is a very good tool to control a device connected on a remote PC serial portwith a web browser. You can build a complete web interface for your RS232 device.

• Publisher: Cosmin Buhu
• Home page:TheByteWorks.com
• Last updated: December 20th, 2009

Serial to Ethernet Connector

Serial to Ethernet Connector is an advanced serial over IP solution for sharing of serial ports. It allows you to share up to 255 serial devices over network, thus turning your computer into a low-cost terminal server.

• Publisher: Eltima Software
• Home page:www.eltima.com
• Last updated: July 29th, 2020

Advanced Serial Port Terminal

This program is a tool for every developer and programmer. With this program you will be able to change serial port settings without the need to close and re-open the serial port, adjust baudrate, databits, parity, stop bits, flow control parameters; save all received bytes into a file for later analysis and lots more.

• Publisher: Eltima Software
• Home page:www.eltima.com
• Last updated: February 25th, 2011

Lalim Parallel Port Control

Drivers emachines monitors software. Most of engineering industry using PC to control hardware with using additional I/O card but with Lalim Parallel Port Control you can use your default printer port controlling external device such as switching on/off light or control electronic devices. What does this program [does is] trigger the parallel port (Printer port) 's data pin by your command.

• Publisher: Lalim Software
• Last updated: September 12th, 2008

Unified Remote

Denso Wave Robot

Unified Remote turns your smartphone into a remote control for your computer. After installing this tool, you can mirror the computer screen on your phone, control the mouse using touchscreen, type on phone keyboard, manage files and folders, and control media playback.

• Publisher: Unified Intents AB
• Home page:www.unifiedremote.com
• Last updated: July 25th, 2014

Max

Max contains a rich set of user interface tools, including dials, buttons, menus, and text editors. Max can control MIDI devices, serial devices, send data over a network, and handle user input devices. Any source of control is easily connected to anything you want to control.

• Publisher: Cycling '74
• Home page:cycling74.com
• Last updated: June 1st, 2012

Plantronics Hub

Plantronics Hub is a client application that allows end users to control the settings on their Plantronics audio device. End users can customize their ringtone and ring location, configure presence updates, and more. The software enhances the user experience by providing valuable information about the state of their Plantronics audio device, such as mute and battery status

• Publisher: Plantronics, Inc.
• Home page:www.plantronics.com
• Last updated: August 2nd, 2017

MIDI Control Center

MIDI Control Center (MCC) is an application that converts the input of various devices (keyboard, mouse, joystick and programmable oscillators) to MIDI-events (e.g. controllers or notes). For every mouse box you can assign MIDI events to the X and Y axis, separately for the left and right mouse button. The program can be run directly without installing.

• Publisher: Tobias Fleischer
• Last updated: May 29th, 2020

Serial Port Terminal

Drivers Denso Wave Port Devices Bluetooth

Free Serial Port Terminal is a handy and easy to use serial port terminal.It works on Windows 2000 / XP / Vista / Seven.Serial Port Terminal is a session-based, multi-purpose application that provides simple communication interface to connect to any serial port device.

• Publisher: Jonas Kundra
• Last updated: October 24th, 2011

MediaMonkey Remote Server

MediaMonkey Remote Server is a free-to-use application that allows you to control your MediaMonkey media player. The remote itself runs on most Android devices, both phones and tablets. To use the MediaMonkey Remote, you need to install the server program on the computer running MediaMonkey, and the Android app on the Android device you want to use as a remote control.

• Publisher: Erlend Dahl.
• Home page:www.mmremote.net
• Last updated: January 28th, 2016

Parallel Port Control

A simple User Control developed in C#.Net used to control the Parallel Port. The following tasks can be performed using it:- Send data to Data Pins.- Receive data from Data Pins.- Send data to Control Pins.- Receive data from Control Pins.- Read current status of Status Pins.- Implement Synchronous and Asynchronous Loops.- Implement UP, DOWN and UP-DOWN Counters.

• Publisher: Jaspreet Kaleka
• Home page:jaspreetscodezone.blogspot.ro
• Last updated: October 2nd, 2010

Elnec PG4UW

ELNEC PG4UW is a control program for all ELNEC programmers. You can select target device by its class, by manufacturer or simply by typing a fragment of vendor name and/or a part number.

• Publisher: Elnec s.r.o.
• Home page:www.elnec.com
• Last updated: February 28th, 2016

Application programs rely on a combination of user- and kernel-mode components to capture and play back MIDI and DirectMusic streams.

An application can use either of the following software interfaces for MIDI playback and capture:

• Microsoft Windows Multimedia midiOutXxx and midiInXxx functions

• DirectMusic API

The behavior of the midiOutXxx and midiInXxx functions is based on the capabilities of legacy MIDI drivers and devices. Beginning with Windows 98, the WDMAud system driver translates calls to these functions into commands to WDM audio drivers. However, by emulating the behavior of older software and hardware, the midiOutXxx and midiInXxx functions sacrifice the precision timing and enhanced functionality that are now available through the DirectMusic API. For more information about DirectMusic and the Windows Multimedia MIDI functions, see the Microsoft Windows SDK documentation.

DirectMusic and the Windows Multimedia MIDI functions are clients of the SysAudio system driver, which builds the audio filter graphs that process the MIDI and DirectMusic streams. Graph building is transparent to the applications that use these software interfaces.

MIDI Components

The following figure shows the user-mode and kernel-mode components that a MIDI application uses to play back MIDI data. This application interfaces to the WDM audio drivers through the midiOutXxx functions, which are implemented in the WinMM system component, Winmm.dll.

The MIDI application in the preceding figure reads time-stamped MIDI events from a MIDI file and plays them. The MIDI and DMus miniport drivers are shown as darkened boxes to indicate that they can be vendor-supplied components. If appropriate, a vendor might choose to use one of the system-supplied miniport drivers--FMSynth, UART, or DMusUART--instead of writing a custom miniport driver. All of the other components in the figure are system-supplied.

The main loop of a typical MIDI-playback application calls timeSetEvent to schedule the next note-on or note-off event. This call takes as one of its parameters a function pointer to the application's callback routine. When the event occurs and the operating system calls the callback routine, this routine calls midiOutShortMsg to turn on or turn off one or more scheduled notes. The midiOutShortMsg function stores the MIDI messages in page-locked data buffers to eliminate the need to page-in this memory during a call. For more information about the timeSetEvent and midiOutShortMsg calls, see the Microsoft Windows SDK documentation.

WDMAud, which consists of both user- and kernel-mode components (Wdmaud.drv and Wdmaud.sys), records the times at which the raw MIDI messages from the midiOutShortMsg calls arrive. WDMAud combines these time stamps with the MIDI messages to generate the MIDI stream that it sends to one of the kernel-mode components that appear below WDMAud in the figure.

When building the audio filter graph for the MIDI application, SysAudio selects only one of the three possible connections -- to SWMidi, the MIDI port, or the DMus port driver -- that appear in the preceding figure. If the application selects the default MIDI device, SysAudio first looks for a synthesizer device whose MIDI or DMus miniport driver has a MIDI pin. If it finds no such device in the registry, SysAudio will instead use the SWMidi system driver (Swmidi.sys). SWMidi is a KS filter that implements a wavetable synth in software, and it requires only a device that can render a wave audio stream.

SWMidi mixes all of its voices together to produce a single wave PCM stream, which it outputs to the KMixer system driver. KMixer, in turn, passes a PCM-formatted wave stream to a WaveCyclic or WavePci device, whose port and miniport drivers appear at the lower-left corner of the figure. Alternatively, KMixer can pass its output stream to a USB audio device that is controlled by the USBAudio class system driver (not shown in figure).

In the preceding figure, the MIDI port driver takes the time-stamped MIDI stream from WDMAud and converts it to raw MIDI messages, which the MIDI miniport driver plays through the synthesizer device. The MIDI port driver contains a sequencer, which is implemented in software and is able to schedule the raw MIDI messages with a timer resolution of one millisecond.

The DMus port driver is able to achieve a much higher timing accuracy than the MIDI port driver if the synthesizer device contains a hardware sequencer. In this case, the DMus miniport driver should specify a hardware buffer that is large enough to absorb the jitter resulting from competition for CPU time with ISRs (interrupt service routines) and other high-priority operations. The time stamps in the MIDI stream that the DMus port driver outputs to the miniport driver are 64-bit values with 100-nanosecond resolution.

If the DMusic synth does not have a hardware sequencer, it must rely on the DMus port driver's software sequencer, which, like the MIDI port driver's, has a timer resolution of one millisecond.

An adapter driver creates a MIDI or DMus port driver by calling PcNewPort with a GUID value of CLSID_PortMidi or CLSID_PortDMus, respectively. In Windows XP and later, the MIDI and DMus port drivers share the same software implementation.

Appearing at the bottom of the preceding figure are the names of the system-supplied miniport drivers FMSynth, UART, and DMusUART, which are included in Portcls.sys. An adapter driver creates one of these miniport drivers by calling PcNewMiniport. FMSynth and UART provide IMiniportMidi interfaces, and DMusUART provides an IMiniportDMus interface. Note that UART is now obsolete (after Windows 98 Gold) and is supported only for existing drivers. New adapter drivers should instead use DMusUART (in Windows 98 SE and later, and in Windows 2000 and later), which implements a superset of UART's functionality. DMusUART is an example of a DMus miniport driver that supports neither DLS downloads nor hardware sequencing. The source code for the FMSynth and DMusUART miniport drivers is available in the sample audio drivers in the Windows Driver Kit (WDK).

The following figure shows the user-mode and kernel-mode components that a MIDI application program uses to capture MIDI data. This application interfaces to the WDM audio drivers through the midiInXxx functions.

In the preceding figure, the MIDI and DMus miniport drivers are shown as darkened boxes to indicate that they can be vendor-supplied components. If appropriate, a vendor might instead choose to use one of the system-supplied miniport drivers, UART or DMusUARTCapture. All of the other components in the figure are system-supplied.

The source of the MIDI data is typically an MPU-401 device. By calling PcNewMiniport, an adapter driver can create one of the system-supplied miniport drivers, UART or DMusUARTCapture, to capture MIDI data from a MPU-401 device. Again, UART is obsolete, and new drivers instead should use DMusUARTCapture (in Windows 98 SE and later, and in Windows 2000 and later).

Each time a MIDI note-on or note-off event occurs, the MIDI or DMusic capture miniport driver (at the bottom of the preceding figure) adds a time stamp to the MIDI message before adding it to the MIDI stream that flows to the MIDI or DMus port driver.

The MIDI or DMusic capture port driver outputs a time-stamped MIDI stream to Wdmaud.sys, the kernel-mode half of the WDMAud system driver. The user-mode half, Wdmaud.drv, outputs the time-stamped MIDI stream to the application program through the midiInXxx functions, which are implemented in Winmm.dll.

The MIDI application at the top of the figure writes time-stamped MIDI events to a MIDI file. At the time that the application calls midiInOpen to open the MIDI input stream, it passes in a function pointer to its callback routine. When a note-on or note-off event occurs, the operating system calls the callback routine with a data block that includes one or more time-stamped MIDI messages. The time stamps on these messages are essentially the same ones that the MIDI or DMus miniport driver originally generated.

DirectMusic Components

The following figure shows the user- and kernel-mode components that are used by a DirectMusic application program to play back or capture MIDI data.

The playback components are shown in the left half of the preceding figure, and capture components appear on the right. The DMus miniport drivers are shown as darkened boxes to indicate that they can be vendor-supplied components. If appropriate, a vendor can instead use one of the system-supplied miniport drivers, DMusUART or DMusUARTCapture. The other components in the figure are system-supplied.

In the top left corner of the figure, a DirectMusic application directs a time-stamped MIDI stream from a file to the user-mode DirectMusic system component (DMusic.dll), which in turn directs the stream to a DMus port driver. This driver can be bound to the miniport driver for a DirectMusic synth or MPU-401 device, if one is available. Alternatively, the port driver can be bound to the DMusic system driver (Dmusic.sys), which is a system-supplied DMus miniport driver that implements a DLS-capable wavetable synth in software, and that only requires a device that can render a wave audio stream. Hitex driver download for windows.

Like SWMidi, the DMusic driver, Dmusic.sys, mixes all of its voices together to produce a single PCM-formatted wave stream, which it outputs to KMixer. KMixer, in turn, can pass a wave stream to a wave device, whose port and miniport drivers appear at the lower-left corner of the figure, or to a USB audio device that is controlled by the USBAudio system driver, which does not appear in the figure.

The DirectMusic capture components appear in the right half of the preceding figure. The DMusic capture miniport driver in the lower-right corner of the figure controls the capture hardware and time-stamps each MIDI message that it records. The DMus port driver directs the time-stamped MIDI stream to the user-mode DirectMusic component, DMusic.dll. The application accesses this stream through the DirectMusic API and writes the time-stamped MIDI data to a file.

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An adapter driver can use the system-supplied DMusUARTCapture miniport driver to control an MPU-401 capture device. Drivers digidesgn mobile phones & portable devices. The adapter driver creates this miniport driver by calling PcNewMiniport with GUID value CLSID_DMusUARTCapture. The resulting miniport driver object supports an IMiniportDMus interface. The source code for the DMusUARTCapture miniport driver is available in the sample audio drivers in the Windows Driver Kit (WDK).

Drivers Denso Wave Port Devices Replacement

A DirectMusic application can also run through a midiOutXxx device such as SWMidi (Swmidi.sys) if it chooses to. For simplicity, this path is omitted from the preceding figure. The DMusic driver (Dmusic.sys) requires an initial DLS download in order to operate correctly; using SWMidi avoids this requirement.