- TP.B ipmikcsdrv -An IPMI Keyboard Controler Style (KCS) interface driver for the message handler. +An IPMI Keyboard Controller Style (KCS) interface driver for the message handler. TP.B ipmidevintf Linux character device interface for the message handler. @@ -3553,7 +3553,7 @@ ipmitool includes some sample initialization scripts that can.
- Drivers for laptop Adlink CPCI-6530: the following page shows a menu of 25 devices compatible with the laptop model CPCI-6530, manufactured by 'Adlink'.To download the necessary driver, select a device from the menu below that you need a driver for and follow the link to download.
- This page lists companies with one or more products emphasizing the keywords.dual core MCU.
ADLINK's NuDAM data acquisition modules make up a total acquisition network and control system. Up to 256 NuDAM modules an be romotely controlled on any RS-485 network from a host computer, via a single serial RS-232, allowing communication from as far as 4000 feet from the host.
16 bit Arbitrary Waveform Generator
- Up to 40 MS/s on 1 channel
- Output level ±6 V into High Impedance
- Output level ±3 V into 50 Ohm
- 16 bit arbitrary waveform generator
- Simultaneous signal generation on all channels
- Fixed trigger to output delay
- Single-Shot, Loop, Gated, Sequence Mode
- 4 digital outputs (Marker) standard, 16 more as option
- Synchronization of up to 16 cards
- Internal Synchronization with matching Digitizers
- PCIe x4 Gen1 Interface
- Works with x4/x8/x16* PCIe slots
- Software compatible to PCI
- Sustained streaming mode up to 700 MB/s
- Direct data transfer to / from CUDA GPU using SCAPP
Application Examples
- Antenna Arrays
- Research and Development
- Stimulus-Response Tests
- Closed Loop Tests
General Information
The M2p.65xx series offers different versions of arbitrary waveform generators for PCI Express with a maximum output rate of 125 MS/s. These boards allow to generate freely definable waveforms on several channels synchronously. With one of the synchronization options the setup of synchronous multi channel systems is possible as well as the combination of arbitrary waveform generator with digitizers of the M2p product family. The 512 MSample on-board memory can be used as arbitrary waveform storage or as a FIFO buffer continuously stream data via the PCIe interface. Importantly, the high-resolution 16-bit DACs deliver four times the resolution than AWGs using older 14-bit technology.
In contrast to the parallel PCI buses PCI Express slots contain serial point to point connections. Each connection pair (lane) is able to reach a burst connection speed of 250 MBytes/s. The Spectrum PCI Express cards base on the powerful x4 lane slot type. One advantage of the PCI Express technology is the direct connection of each slot allowing a full transfer bandwidth for each single card. PCI Express is today's bus standard for PC based systems. Spectrum's PCI Express x4 cards can be used in any standard PCI Express slot with x4, x8 or x16. They physically do not fit into one lane (x1) PCIe slots.
The FIFO mode is designed for continuous data transfer between measurement board and PC memory or hard disk. The read (acquisition) transfer rate reached depends on the motherboard and can be up to 700 MByte/s on a PCI Express x4 Gen1 slot. The control of the data stream is done automatically by the driver on interrupt request. The complete installed on-board memory is used for buffer data, making the continuous streaming extremely reliable.
When repeated output is used the data of the on-board memory is replayed continuously until a stop command is executed or N times. As trigger source one can use the external TTL trigger or the software trigger.
The sequence mode allows to split the card memory into several data segments of different length. These data segments are chained up in a user chosen order using an additional sequence step memory with the ability to program loops and triggers and to reload data while output is running.
When this mode is activated the data of the on-board memory will be replayed once after each trigger event. As Trigger source one can use the external TTL or software trigger.
When singleshot output is activated the data of the on-board memory is replayed exactly one time. As trigger source one can use the external TTL trigger or the software trigger.
The star-hub is an additional module allowing the phase stable synchronization of up to 16 boards in one system. Independent of the number of boards there is no phase delay between all channels. The star-hub distributes trigger and clock information between all boards. As a result all connected boards are running with the same clock and the same trigger. All trigger sources can be combined with OR allowing all channels of all cards to be trigger source at the same time. The star-hub is available as either piggy-back version (extending the width of the card) or as extension version (extending the length of the card to full length).
All boards can be triggered using a separate external trigger signal with a two level programmable window comparator and a second separate external trigger with a single programmable level comparator. It's possible to use positive or negative edge. An internally recognized trigger event can - when activated by software - be routed to a multi purpose i/o connector to start external instruments.
The Gated Sampling option allows data replay controlled by an external gate signal. Data is only replayed if the gate signal has a programmed level.
The card offers universal multi purpose I/O lines, which can be separately programmed as either input or output. These lines can be used as additional TTL trigger inputs for more complex trigger conditions.
The Multiple Replay option allows the fast repetition output on several trigger events without restarting the hardware. With this option very fast repetition rates can be achieved. The on-board memory is divided in several segments of same size. Each of them is generated if a trigger event occurs.
Using a dedicated connector a sampling clock can be fed in from an external system. It's also possible to output the internally used sampling clock to synchronize external equipment to this clock.
The internal sampling clock of the card is generated using a high precision PLL. This powerful device allows to select the sampling rate with a fine step size making it possible to perfectly adopt to different measurement tasks. Most other cards on the market only allow the setup of fixed sampling rates like 100 MS/s, 50 MS/s, 25 MS/s, 10 MS/s, ... without any possibility to set the sampling rate to any value in between.
The option to use a precise external reference clock (normally 10 MHz) is necessary to synchronize the board for high-quality measurements with external equipment (like a signal source). It's also possible to enhance the quality of the sampling clock in this way. The driver automatically generates the requested sampling clock from the fed in reference clock.
Additional synchronous digital channels (markers) can be replayed phase-stable with the analog data. When this mode is active up to four additional digital marker outputs can be used by reducing the analog resolution of the D/A converter. As an option 16 more digital outputs are available.
The Spectrum Arbitrary Waveform Generators are equipped with a very wide programmable output amplitude. This allows to adapt the output signal level to the needs of the stimulated device while also having the maximum output resolution available for the signal.
A lot of third-party products are supported by the Spectrum driver. Choose between LabVIEW, MATLAB, LabWindows/CVI and IVI. All drivers come with examples and detailed documentation.
Programming examples for C++, Delphi, Visual Basic, C#, J#, VB.Net, Java, Python and LabWindows/CVI are delivered with the driver. Due to the simple interface of the driver, the integration in other programming languages or special measurement software is an easy task.
All cards are delivered with full Linux support. Pre compiled kernel modules are included for the most common distributions like RedHat, Fedora, Suse, Ubuntu or Debian. The Linux support includes SMP systems, 32 bit and 64 bit systems, versatile programming examples for Gnu C++ as well as the possibility to get the driver sources for own compilation.
Using the Spectrum Remote Server it is possible to access the M2p/M2i/M3i/M4i/M4x card(s) installed in one PC (server) from another PC (client) via local area network (LAN), similar to using a digitizerNETBOX. To operate it the remote server option has to be activated by a software license for any of the Spectrum cards in the remote system.
SBench 6 is a powerful and intuitive interactive measurement software. Besides the possibility to commence the measuring task immediately, without programming, SBench 6 combines the setup of hardware, data display, oscilloscope, transient recorder, waveform generator, analyzing functions, import and export functions under one easy-to-use interface.
The SDK option allows to directly transfer data between the Spectrum card and a NVIDA CUDA GPU card. The GPU card is optimized for parallel data processing. The package comes with a number of detailed examples like FFT or block average.
This standard driver is included in the card delivery and it is possible to get the newest driver version free of charge from our homepage at any time. There are no additional SDK fees for the classical text-based programming. All boards are delivered with drivers for Windows 7, Windows 8 and Windows 10, all 32 bit and 64 bit.
Adlink Cpci-6530 Drivers
Family | Channels | Max. Samplerate | Max. Bandwidth |
---|---|---|---|
M2p.6531-x4 | 2 | 40 MS/s | 20 MHz |
M2p.6533-x4 | 8 | 40 MS/s | 20 MHz |
M2p.6536-x4 | 4 | 40 MS/s | 20 MHz |
M2p.6540-x4 | 1 | 40 MS/s | 20 MHz |
M2p.6541-x4 | 2 | 40 MS/s | 20 MHz |
M2p.6546-x4 | 4 | 40 MS/s | 20 MHz |
M2p.6560-x4 | 1 | 125 MS/s | 60 MHz |
M2p.6561-x4 | 2 | 125 MS/s | 60 MHz |
M2p.6566-x4 | 4 | 125 MS/s | 60 MHz |
M2p.6568-x4 | 8 | 125 MS/s | 60 MHz |
M2p.6570-x4 | 1 | 125 MS/s | 60 MHz |
M2p.6571-x4 | 2 | 125 MS/s | 60 MHz |
M2p.6576-x4 | 4 | 125 MS/s | 60 MHz |
File Name | Info | Last modified | File Size |
---|---|---|---|
m2p65_datasheet_english.pdf | Data sheet of the M2p.65xx series | 12.11.20 | 773 kBytes |
m2p_65xx_manual_english.pdf | Manual of M2p.65xx family | 12.11.20 | 8 MBytes |
spcm_ivi_english.pdf | Short Manual for IVI Driver | 15.07.19 | 519 kBytes |
m2p_xxxx_labview_english.pdf | Manual for LabVIEW drivers for M2p | 18.12.19 | 2 MBytes |
spcm_scapp_english.pdf | SCAPP Manual | 01.07.19 | 437 kBytes |
spcm_matlab_manual_english.pdf | Manual for MATLAB driver M2i/M2p/M3i/M4i/M4x/DN2/DN6 | 15.07.19 | 669 kBytes |
File Name | Info | Last modified | File Size |
---|---|---|---|
spcm_drv_install_5.23.17678.exe | M2i/M3i/M4i/M4x/M2p/DN2/DN6 driver for Windows 7, 8, 10 (32/64 bit) | 20.01.21 | 4 MBytes |
c_header_v523b17678.zip | C/C++ driver header and library files | 20.01.21 | 40 kBytes |
spcmcontrol_install32bit.exe | Spectrum Control Center (32-bit) / Windows 7, 8, 10 | 20.01.21 | 20 MBytes |
spcmcontrol_install64bit.exe | Spectrum Control Center (64-bit) / Windows 7, 8, 10 | 20.01.21 | 22 MBytes |
specfgen.msi | IVI Driver for IVI FGen class (32 bit) | 20.01.21 | 2 MBytes |
spcm_remote_install.exe | Windows Installer for Remote Server Option | 20.01.21 | 12 MBytes |
sbench6_v6.4.21b17691.exe | SBench 6 (32-bit) Installer / Windows 7, 8, 10 | 20.01.21 | 33 MBytes |
sbench6_64bit_v6.4.21b17691.exe | SBench 6 (64-bit) Installer / Windows 7, 8, 10 | 20.01.21 | 36 MBytes |
spcm_drv_labview_install.exe | M2i/M2p/M3i/M4i/M4x/DN2/DN6 LabView driver installer | 20.01.21 | 23 MBytes |
spcm_drv_matlab_install.exe | M2i/M2p/M3i/M4i/M4x/DN2/DN6 Matlab driver + examples installer | 20.01.21 | 3 MBytes |
examples_install.exe | Windows Examples (C/C++, VB, Delphi, .NET, CVI, Python ...) | 20.01.21 | 2 MBytes |
File Name | Info | Last modified | File Size |
---|---|---|---|
spcm_linux_drv_v523b17678.tgz | M2i/M2p/M3i/M4i/M4x drivers (Kernel + Library) for Linux 32 bit and 64 bit | 20.01.21 | 11 MBytes |
spcm_linux_libs_v523b17678.tgz | Driver libraries (no Kernel) for Linux 32 bit and 64 bit | 20.01.21 | 7 MBytes |
spcm_control_center.tgz | Spectrum Control Center | 20.01.21 | 50 MBytes |
spcm_remote_server.tgz | Spectrum Remote Server Linux Installer Package | 20.01.21 | 11 kBytes |
sbench6_6.4.21b17691-2_i386.deb | SBench 6 Linux 32 (.deb) | 20.01.21 | 25 MBytes |
sbench6-6.4.21b17691-1.32bit.rpm | SBench 6 Linux 32 (.rpm) | 20.01.21 | 24 MBytes |
sbench6_6.4.21b17691-2_amd64.deb | SBench 6 Linux 64 (.deb) | 20.01.21 | 25 MBytes |
sbench6-6.4.21b17691-1.64bit.rpm | SBench 6 Linux 64 (.rpm) | 20.01.21 | 24 MBytes |
spcm_matlab_driver.tgz | Drivers + examples for MATLAB for Linux (DEB + RPM) | 20.01.21 | 178 kBytes |
spcm_examples.tgz | Linux Examples (C/C++, Python ...) | 20.01.21 | 1 MBytes |
Adlink Cpci-6530 Driver Updater
File Name | Info | Last modified | File Size |
---|---|---|---|
spcm_firmware.tgz | M2i/M2p/M3i/M4i/M4x firmware update (Linux) | 20.01.21 | 16 MBytes |
firmware_update_install.exe | M2i/M2p/M3i/M4i/M4x firmware update (Windows) | 20.01.21 | 12 MBytes |
Name | Info | Last modified | File Size |
---|---|---|---|
Create & Capture AWG Waveforms | Creating , Capturing and Transferring Waveforms for AWG's using SBench 6 | 28.08.15 | 2 MBytes |
AWG Waveforms | Creating AWG Waveforms in SBench 6 using Equations | 08.07.15 | 467 kBytes |
Digitizer Software Integration | Software Support for Modular Digitizers | 19.02.15 | 707 kBytes |
Trigger and Sync | Trigger, Clock and Synchronization Details at high-speed Digitizers | 19.02.15 | 1 MBytes |
SBench 6 Introduction | SBench 6 - Data Acquisition and Analysis of Digitizer Data | 19.02.15 | 1 MBytes |
Name | Info | Last modified | File Size |
---|---|---|---|
Introduction to Modular Arbitrary Function Generators | An Introduction to Modular Arbitrary Function Generators | 04.04.16 | 684 kBytes |
Arbitrary Waveform Generator Operating Modes | Using Arbitrary Waveform Generator Operating Modes Effectively | 04.04.16 | 469 kBytes |
AN Closed Loop Digitizer+AWG | Application Note: Closed Loop Tests with Digitizer and AWG and CUDA-GPU | 02.03.20 | 1 MBytes |
RF Measurements | RF Measurements using a modular Digitizer | 19.02.15 | 818 kBytes |
Teaming AWG with Digitizer | Teaming an Arbitrary Waveform Generator with a Modular Digitizer | 11.01.16 | 897 kBytes |
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How to create a RAID array on an industrial computer?
LPCIA–GPIB–ADLINK
Below is a partial list of instruments that been tested with PCI A typical automatic testing system includes testing programs and various testing equipment connected to the host computer via a GPIB interface. Converting protocols via MGate. Product of the month April March This site uses cookies in order to improve your user experience and to provide content tailored specifically to your interests.
Today, GPIB is the most popular interface between computer and instruments. The IEEE standard has been widely accepted by instrument vendors for decades.
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New Palm-Size Computer from Advantech. Instrument C Able to Listen ex: Remaining Stock, Returns and Special Items. It’s a community-based project which helps to repair anything. Save password Log in Forgot your password? All programs written based on GPIB You can also manage your preferences there.
Articles and Reviews Modbus made simple with descriptions and examples. Is a touch screen not working?
PCI-3488 Adlink use LPCIe-3488A
Consult our helpdesk or send us an email at sales ipc2u. Looking back on a successful Embedded World Multifunctional Automated Traffic Enforcement System.
Industrial PC Power Supplies.
Adlink Pci-7230
To manage the connections with GPIB instruments, testing programs are usually developed according to the following model: The PCI supports both 3. Industrial Displays and Monitors.
LPCIeA–GPIB–ADLINK
Custom Design Box PCs. VISA support is essential in this case. A aflink part of a test and measurement application is to control and communicate with GPIB instruments. Two techniques are generally used to control the GPIB interface: Product of the month February IEEE standard pin Operating temperature: Ask technical support online or e-mail: