NEWS

MITS just launched the SFP28/QSFP28 Active Copper Cables (ACC) 

With the large-scale construction of data centers, the demand for high-speed and high-density network in Switch , Storage & Server are more and more strong and complex. And the heat will be a big issue. And how to reduce the power consumption will be the requested in such kind of application and take a very important role.  

The interconnect products currently used in data center racks include : Optical Transceiver, Active Optical Fiber (AOC) & Passive Copper (DAC). Based on actual wiring, these three products are alternately used in the rack (Inner Rack), Rack to Rack and Data Center to Data Center. The huge demand for  AOC & DAC comes from the inner Rack and Rack to Rack.

As the speed gets faster and faster, the energy consumption of the optical component is relatively larger, but it can provide a longer distance (about 3-10 meters) and is relatively reliable. However, the price is high and the power consumption is even larger. Because the DAC price is low and low power consumption, so it becomes the first choice in Data Center application. But the transmission distance of the transmission rate of DAC is getting faster, the distance will be even shorter. Therefore, the Active Copper Cable (ACC) is born, the purpose is to increase the distance (like AOC) and lower the power consumption and price (like DAC).

The current products that we offer are 25G SFP28 & 100G QSFP28 Active Copper Cables, which is also the main stream products. The 400G QSFP-DD Active Copper Cable is also under developing and hope soon to released.

If you have any needs, please call us at Tel : 02-66215899) or E-mail us.

The 3GPP 5G specifications have been evolving in stages into the new CUPS (control and user plane separation) architecture, which is fundamental for 5G, and one of its primary components is the User Plane Function (UPF). Ethernity’s 5G UPF Acceleration solution uses its patented ENET Flow Processor technology and standard DPDK APIs to offload the data plane to FPGA and thereby accelerate the UPF and the entire 5G network.
 

Ethernity’s FPGA-based ACE-NIC SmartNIC easily integrates with third-party UPF software networking elements from any vendor to fully offload the user plane data, releasing CPU cores, enhancing scalability, assuring deterministic performance, and providing future-ready programmability.
 

Ethernity’s 5G UPF Acceleration solution assures carrier-grade UPF performance at an extremely competitive price. The solution supports the disaggregation approach by enabling the UPF to be placed at the network edge closer to end user locations, thereby achieving better performance, reducing networking overhead, and lowering costs. The solution’s small footprint and low power requirements are also optimal for network edge deployment.
 

The solution supports 5G Quality of Experience (QoE), including high bandwidth, low latency, dense connectivity, and multitenancy. It enables an easily programmable data path that can quickly adapt to a service provider’s unique requirements and evolve with the ever-changing architectural requirements of the mobile market.
 

The ENET data path also supports network slicing with extensive multitenant control and with service partitioning and isolation features.
 

The solution can be implemented via an Ethernity ACE-NIC for accelerating 5G UPF as a VNF (virtual network functions). ACE-NICs can also accelerate the network function virtualization infrastructure (NFVI) based on DPDK. The solution is also available for implementation via an Ethernity ENET L3 Flow Processor for standard devices.



 

• AMF – Access and Mobility Management Function
• SMF – Session Management Function
• UPF – User Plane Function

NVE Introduces CAN FD Isolated Transceivers
  NVE’s popular line of isolated CAN transceivers has been expanded to include CAN FD. The new CAN FD isolated transceivers are ideal for factory automation, battery management systems, and automotive applications.
 

World’s Smallest
Like all of our isolated transceivers, the new CAN FD transceivers are available in NVE’s unique QSOP16 package, which is the world’s smallest isolated transceiver, as well as narrow and wide SOIC16s. The wide-body SOIC is JEDEC-compliant, but unlike other “wide” SOICs it has true 8 mm creepage.
 

A Better Barrier
Unlike other isolators, our unique polymer/ceramic composite barrier provides best-in-class barrier resistance and virtually unlimited barrier life.

 

Faster
CAN FD has up to five times the data rate and eight times the data "payload" of standard CAN.

 

Exceptional Specifications
The new IL41050TFD CAN FD transceivers feature exceptional specifications for performance and reliability, including 5 Mbps data rate, 136 ns typical loop delay, just 5 mA quiescent supply current (recessive), and -40 to 125°C temperature range.

 
Key IL41050TFD-Series features include:
  • Fully CAN FD compliant
  • 2.5 kVrms Isolation
  • 44000 year barrier life
  • QSOP16 version is the world’s smallest
  • Wide-body version with True 8 mm creepage

Available Now
All three new parts, along with our legacy CAN transceivers, are in stock for immediate delivery:

 

Isolated CAN FD Transceivers
Part Number	Data Rate	Protocol	Package
IL41050TA-1E	1 Mbps	CAN	QSOP16
IL41050TA-3E	1 Mbps	CAN	Narrow SOIC16
IL41050TAE	1 Mbps	CAN	Wide SOIC16
NEW IL41050TFD-1E	5 Mbps	CAN FD	QSOP16
NEW IL41050TFD-3E	5 Mbps	CAN FD	Narrow SOIC16
NEW   IL41050TFDE	5 Mbps	CAN FD	Wide SOIC16

MITS introduces IEEE802.3bt (Ultra High Power) POE Injectors, PD & PSE modules. 

We are happy to introduce our IEEE802.3bt Injectors. This series Injectors have included AC Voltage Input and DC Voltage Input. With "802.3bt" signature that we are offering standard Output power upto 90W. If the application needs more power, we can suppor upto 120W Injectors, but no 802.bt signature. Also the Ethernet speed grade that is cover 1GBasedT, 2.5GBaseT, 5GBasedT & 10GbasedT. The max. distance for 10GBasedT can be upto 30 meter, the rest speed grade can reach 100 meter.   please refer the below table for our IEEE802.3bt Injector series. 

1. IEEE802.3bt AC Input Voltage Injectors 

       
 

2. IEEE802.3bt DC Input Voltage Injectors : 

       

At the same time, MITS is also offering the IEEE802.3bt PSE & PD modules. The detail as below. 
              

If you are interested, you are welcome to contact us for more info. 

MITS just launches the passive PoE (Power Over Ethernet) Tester 

More and more devices are based on POE technology to deliver the system power. MITS just launched the simple to use PoE Tester for user easier to know detect the PSE with what kind of PoE signature in hte netwroks. Of course, it also can use for PSE manufacture as tool kit in productin line.   

Features : 

• Passive detection for IEEE802.3af/at/bt standard
• Small size and aggressive price 

Please feel free to contact us if you have any needs. 

FTTA (Fiber To The Antenna) Cabling Solution 

With the development of 5G commercial deployment drive bearer network in 2019, 5G base station will usher in a large-scale construction cycle. The number of 5G base stations in the future will be 4-5 times higher than 4G, and the cable connection between AAU and DU will also grow rapidly. So a large number of fiber cabling requirements will be generated. In order to cope with larger and higher density 5G base stations, a more efficient fiber cabling approach will be essential.

MITS is introducing a fast, reliable, low-cost FTTA and outdoor fiber connectivity solution for 5G networks. The solution consists of an outdoor multi-core pre-terminated trunk cable, an outdoor branch box, and a terminal 2-core outdoor jumper. It provides simplified installation and easy operation and maintenance deployment efficiency for 5G base station fiber cabling.
 
The benefits : 
 

1.  Outdoor application design, with high security, corrosion resistance, IP68 protection level, can be plug and play, easy to connect
2.  14mm outer diameter, small, compact outdoor multi-core connector design, easier to adapt to various application scenarios
3.  It adopts standard MT ferrule and LC ceramic ferrule connection, with low attenuation and high reliability;
4.  The outdoor connector can be used with the male and female to extend the distance of the trunk cable;
5.  Multi-core and two-core adopt the same shell design, with high interchangeability, which is conducive to expansion and upgrade;
6.  The connector adopts a guiding structure to ensure the docking accuracy and also effectively prevent damage to the surface of the fiber by mis-operation;
7.  The optical cable and connector adopt mechanical seal and no need the heat tube, which reduces the possible failure during seal and improves production efficiency.

        
        
       
 If you are interested to get more info, please feel free to contact us. 
 

QNgine-S™ IEEE 1588 PTP timing software assures synchronization performance in small cells deployed indoors and in GNSS challenged environments, enabling operators to densify mobile networks with advanced LTE features.

SAN JOSE, CALIF. (PRWEB) - Qulsar, a leading provider of precise and resilient timing solutions announced its QNgine-S PTP software is now available on the Qualcomm FSM9xxx platform (used in small cell designs worldwide). Small cell vendors designing products based on the FSM9xxx platform now have access to an industry-leading precision timing solution that will enable indoor and urban canyon deployments of small cells, where GNSS signals are rather weak.

As operators continue to upgrade and modernize their networks, there is an increasing demand for a packetbased timing solution (i.e. 1588 PTP) to support LTE-TDD and LTE-A deployments. The QNgine–S made available by Qulsar to use with the FSM9xxx platform, is designed to enable operators to deploy small cells cost effectively and without a hardware upgrade to existing networks (i.e. on an existing timing unaware network), especially in locations where GNSS (GPS) signals are unavailable or impeded. Qulsar’s field proven leading edge 1588 PTP slave technology already powers many eNodeBs and mobile backhaul infrastructure.

QNgine-S is a software only solution that integrates with the baseband software of the FSM9xxx platform to provide an IEEE 1588-2008 PTP solution capable of recovering both time and frequency from a remote PTP grandmaster. According to Qulsar’s VP of Sales and Strategic Partnerships, Minoo Mehta, “QNgine-S is optimized to operate in networks that haven’t implemented full on path PTP support. Qulsar’s advanced time recovery servo uses adaptive algorithms to allow time recovery to better than the required 1.1 μs for TDD applications, coupled with frequency alignment better than 15 ppb to meet the air interface requirements – a level of performance that typically cannot be achieved with unsophisticated servos and / or open source PTP solutions.”

“QNgine-S provides an increasingly important solution for synchronization of small cells and remote radio heads,” said Puneet Sethi, senior director, product management, Qualcomm Atheros, Inc. “We applaud Qulsar’s approach to delivering precise timing performance to customers using the FSM9xxx platform without new specialized hardware requirements, as this will help accelerate the global adoption of these platforms.”

Qulsar also provides design engineering services to tailor QNgine-S to variant architectures and platforms as needed and offers lab testing services to validate PTP performance. More details of QNgine-S and other PTP solutions from Qulsar can be found at qulsar.com or email sales@qulsar.com.

Qulsar is a registered trademark and QNgine-S is a product of Qulsar.

Qualcomm and FSM are trademarks of Qualcomm Incorporated, registered in the United States and other countries.

Qualcomm FSM is a product of Qualcomm Technologies, Inc. and/or its subsidiaries.

MITS Component & System Corp., a leading supplier of optical transceivers and high-performance, end-to-end smart interconnect solutions for data center servers and storage systems, today announced the introduction of new 200G and 400G DAC Cables
 
·  400G QSFP-DD Trunk DAC
·  400G QSFP-DD Fanout DAC – 1 to 8 (SFP56*8) & 1 to 2 (QSFP56 * 2)
·  200G QSFP-56 Trunk DAC
 
All cables can reach upto 2.5m cable length. With high quality signal integrity design. Of course, we have very aggressive price to compete the market competitors. Please feel free to contact us for your needs. Please click here for more info.