MicroMax's Solutions
MicroMax's Solutions
MicroMax's Solutions
Model 2255
4 Channel USB Frame Grabber
The Model 2255 frame grabber accepts NTSC or PAL video on 4 composite inputs. Digitized images are sent to the host computer via USB 2.0 high-speed interface. A variety of output formats supported by the 2255 eliminates the need for format conversions in a wide range of applications. Supported formats are:
1. RGB packed (24 bits/pixel, bitmap compatible)
2. YCrCb packed (16 bits/pixel, YUY2 compatible)
3. YCrCb planar (16 bits/pixel, optimal for image processing)
4. Y8 (8 bits/pixel, monochrome).
Low Latency
The 2255’s allows fast visual feedback because of its low latency. Its internal DSP optimizes the four data streams for efficient USB 2.0 communication. The Windows drivers are also optimized for low latency. The overall latency is no more than 50 ms for NTSC and 60 ms for PAL.
Deinterlacing
Model 2255 performs optional deinterlacing of interlaced video to reduce motion artifacts on captured images. The lines of one of the fields of video are recreated from those of another field by using interpolation. This method provides better visual quality compared to simple line doubling. Since the deinterlacing is performed by the firmware running on the DSPs, it slows the capture rate down slightly. A visual example is provided here.
JPEG Compression
An optional firmware file is available for purchase that enables hardware JPEG compression on the 2255. The optional firmware allows JPEG capture at up to 60 total frames per second from all channels, or 2 channels at 30 fps, or 4 channels at 15 fps. The standard free SDK will allow a user to preview the JPEG capture capability but adds a black bar across the image. Standard uncompressed features are fully supported by our standard SDK.
Model 817
PCI Express JPEG Frame Grabber
Model 817 combines the functions of a frame grabber, hardware JPEG encoder, and 16 X 4 video crosspoint switch, into a PCI-express (x1) card. It is capable of capturing full resolution color JPEG-compressed images and / or monochrome uncompressed bitmaps, from 16 channels at full NTSC or PAL frame rates.
Frame rate
Four identical video capture and processing units (VCPU) work together to compress JPEG images at 30fps on all 16 channels simultaneously for a total board throughput of 480 fps for 640 X 480 interlaced frames.
Hardware compression
Model 817 executes hardware JPEG compression to reduce the amount of disk space required to store images. Hardware compression greatly reduces the load on the CPU.
Multiple boards
Sensorays driver supports multiple 817s in the same computer.
Real-time outputs
A 16x4 analog crosspoint video switch is used to route any combination of four input channels to external video monitors. Each of the four video outputs can be individually turned on or off, which allows connecting the outputs of multiple 817s to the same monitor.
Text Overlay
An optional single line text caption (up to 80 characters) can be overlaid on the captured images (before compression).
Deinterlacing
Model 817 performs optional deinterlacing of interlaced video to reduce motion artifacts on captured images. The lines of one of the fields of video are recreated from those of another field by using interpolation. This method provides better visual quality compared to simple line doubling. Since the deinterlacing is performed by the firmware running on the DSPs, it slows the capture rate down slightly. A visual example is provided here.
Model 623
PC/104+ to PCI Adapter
Description
Model 623 allows testing PC/104+ boards using an inexpensive desktop PC. The 623 offers significant time savings during product development and production testing by allowing PC/104+ boards to be hot-swapped within a desktop PC.
There is no need for an expensive PC/104+ enclosure and processor to test PC/104+ boards.
Protects computer
Use of the 623 protects the system’s PCI slot from physical wear and reduces the system’s electrical stress from frequent power cycling.
Model 627
Compact PCI to PCI Adapter
Model 627 allows testing CompactPCI boards using an inexpensive desktop PC. The 627 offers significant time savings during product development and production testing by allowing CPCI boards to be hot-swapped within a desktop PC.
There is no need for an expensive CompactPCI enclosure and processor to test CPCI boards.
Protects computer
Use of the 627 protects the system’s PCI slot from physical wear and reduces the system’s electrical stress from frequent power cycling.
Model 327 & 328
PCI to PC/104+ Adapter
Description
Model 327 and 328 allow operating a PCI board from a PC/104+ card stack. They have the unique feature of allowing the selection of important PC/104+ signals using jumper plugs. Hence, the PCI board is not forced to use hardwired settings.
Model 327 alignes the PCI board parallel to the PC/104+ boards while Model 328 places it perpendicular.
ADLSEC-1710
Edge-Connect L-Peripheral
The ADLSEC-1710 board is designed for convenient expansion of the ADLE3800SEC Bay Trail Atom SBC via its edge-connect architecture. The ADLE3800SEC plus ADLSEC-1710 L-peripheral combined provide a complete 3.5” SBC solution with a host of expanded features including M.2 PCIe, SATA, DVI/DP/HDMI or USB3.0, UPS option, and more.
As part of a customer product portfolio, the ADLE3800SEC and ADLSEC-1710 allows for a single processor, BIOS, firmware, and customer software across products from small, compact ADLE3800SEC solutions to more complex 3.5” sized solutions.
Applications
UAV and UUV Unmanned Systems, Industrial Control Systems, Government and Defense, Video Surveillance, Small Scale Robotics, Remote Datalogging, Man-Wearable Computing, Factory 4.0, IIoT or Cloud applications.
ADLS15PC
Embedded Single Board Computer
The ADLS15PC PC/104-Plus is based on the Intel Atom and the Intel US15W (Poulsbo) chipset. The Intel Atom is a single core processor built on a 45nm process that boasts an impressive 2.64 watts TDP. The Intel Atom delivers the benefits of genuine Intel architecture to small form factor and thermally constrained markets. The Intel US15W System Controller Hub (SCH) incorporates all functions of legacy GMCH and ICH architectures into a single die.
The ADLS15PC takes advantage of these features by delivering high performance and low thermals in a compact PC/104-Plus form factor. The Intel graphics controller drives a CRT to 1600x1200@60Hz and/or 18/24 bit LVDS LCD.
Memory is added via an SODIMM200 socket that will accept up to 2GB of DDR2-400/533 DRAM. In addition to ACPI/APM functions, EIDE, 8xUSB 2.0, 2xRS232 COM ports, PS/2 Keyboard and Mouse, LPT, AC97 Sound, 10/100/1000MBit LAN and more, the ADLS15PC also comes equipped with up to 4GB onboard SSD. Driver sets for Windows operating systems, as well as BSP's for Windows CE6 and VxWorks are available.
ADL Embedded Solutions offer very effective active and passive thermal solutions designed for this product.
ADLLAN-41000e
Quad-Port Gigabit Ethernet LAN
The ADLLAN-41000e employs the Intel i350-AM4 quad port Gigabit Ethernet controller to bring server class connectivity to PCI/104-Express. With the PCIe V2.0 interface, four Gigabit LAN ports can operate at Gigabit speed while consuming just one PCI Express lane (x1). An additional three ADLLAN-41000e boards may be used in a stack for a total of 16 available Ethernet ports, loading 4 PCIe x1 lanes. This brings true server capability to the PC/104 form factor. As expected, the ADLLAN- 41000e is also backward compatible with PCIe V1.0 signaling platforms, albeit at less than 1 Gigabit per port.
The ADLLAN-41000e also provides a maximum of two additional USB 2.0 ports via the Type 1 PCIe bus interface from the host SBC. Since the USB ports are not implemented using an independent USB controller, only two ports will be available in configurations that use more than one ADLLAN-41000e.
Applications: Mobile Server / Remote Networking, Rugged, Extended Temp., Embedded, Ethernet Surveillance, Industrial Monitoring, Network Routing.
104-PWR-512A
Embedded PC104 Power Supplies
The design incorporates a 16-bit pass through PC/104 connector, molex power input connector and voltage status LED’s. Since heat is always a factor to consider in any system design project, the DC/DC converter can be populated on either side of the board to facilitate heat sinking to one end of an enclosure, with the CPU heat sinking to the other end of the enclosure.
This triple output version can be ordered with or without a heatsink. At up to 85% efficiency, a dynamic input range and full protection on inputs and outputs, this power supply is very versatile and appropriate for many PC/104 based applications.
The Input Power Connector is a Four-pin standard Molex type connector at the edge of the board. It’s the same connector as used on a CD-ROM so it’s easy to set up and test a system with a local +12V computer power supply.
Fully software transparent, the 104-PWR-512 occupies no resources; zero I/O memory locations, IRQs, DMA channels or bandwidth of any types are consumed. Compatible with all operating systems and software.
104-PWR-500A
Wide Range DC/DC PC/104 Power Module
The design incorporates a 16-bit pass through PC/104 connector, molex type power input connector and voltage status LED’s. Since heat is always a factor to consider in any system design project, this module can be populated on either side of the board to facilitate heat sinking to one end of an enclosure, with the CPU heat sinking to the other end of the enclosure.
This single output version can be ordered with or without a heatsink. At up to 84% efficiency, a dynamic input range and full protection on inputs and outputs, this power supply is very versatile and appropriate for many PC/104 based applications.
The Input Power Connector is a Four-pin standard Molex type connector at the edge of the board. It’s the same connector as used on a CD-ROM so it’s easy to set up and test a system with a local +12V Computer type power supply.
