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22 IP
1
10.0
Programmable Low Power V-by-One SERDES - GLOBALFOUNDRIES 65 65G
Analog Bits Programmable SERDES provides a Physical Media Attachment (PMA) Layer capable of signaling at multiple data rates and supports multi-protoc...
2
1.0
V-By-One PHY & Controller (Tx+ Rx)
Innosilicon VBO RX IP is designed to receive and recover the video data from a VBO source device for display applications. Innosilicon VBO RX IP is c...
3
1.0
V-By-One Receiver_8ch
Innosilicon VBO RX IP is designed to receive and recover the video data from a VBO source device for display applications. Innosilicon VBO RX IP is c...
4
1.0
Video-by-One Receiver IP_16ch
This document introduces the low power Innosilicon Video-by-One (VBO) Receiver IP containing PHY and controller. Innosilicon VBO RX is designed for re...
5
1.0
Video-by-One Transmitter IP_8ch
Innosilicon VBO TX IP is designed for transmitting video data from a video source device to a display device. It is compatible with V-By-One HS 1.4 st...
6
0.118
V-by-One Receiver
Analog part of 600Mbps to 4Gbps 4-lane V-By-One receiver with embedded CDR circuit, VCC=0.9V; UMC 28nm HPC+ LowK Logic Process....
7
0.118
V-by-one(VBO) high speed receiver(RX) (includes PMA, PCS, and controller).
V-by-one(VBO) high speed receiver(RX) (includes PMA, PCS, and controller)....
8
0.118
V-by-one(VBO) high speed transmitter(TX) (includes PMA, PCS, and controller).
V-by-one(VBO) high speed transmitter(TX) (includes PMA, PCS, and controller)....
9
0.118
Receive the high speed serial signal, transfer it to parallel data and unpack the symbol packet, direct video stream output finally.
Receive the high speed serial signal, transfer it to parallel data and unpack the symbol packet, direct video stream output finally....
10
0.118
Analog part of 600Mbps to 4Gbps 8-lane V-By-One transmitter with embedded PLL circuit, VCC=0.9V; UMC 28nm HPC+ LowK Logic Process.
Analog part of 600Mbps to 4Gbps 8-lane V-By-One transmitter with embedded PLL circuit, VCC=0.9V; UMC 28nm HPC+ LowK Logic Process....
11
0.118
FTVBOTXALL010 is a V-by-One transmitter designed for applications that take ultra-low power dissipation and high data transfer rate. This IP is compliant with the V-By-One HS Standard, Ver. 1.3. It transfers the packed packet from direct the video stream
FTVBOTXALL010 is a V-by-One transmitter designed for applications that take ultra-low power dissipation and high data transfer rate. This IP is compli...
12
0.0
V-By-One Receiver IP
VBYONE Receiver core is compliant with standard VByOne specification as 1.2/1.3/1.4. Through its compatibility, it provides a simple interface to a wi...
13
0.0
V-by-One Rx IP, Silicon Proven in 40G
Using internal equipment connections, the V-by-One HS technology seeks to send video signals at a high data rate. The V-by-One HS Standard outlines th...
14
0.0
V-by-One Rx IP, Silicon Proven in SMIC 40LL
The V-by-One HS technology aims to transmit video signals at a high data rate using internal equipment connections. The requirements to create a trans...
15
0.0
V-By-One Transmitter IP
VBYONE Transmitter core is compliant with standard VByOne specification as 1.2/1.3/1.4. Through its compatibility, it provides a simple interface to a...
16
0.0
V-by-One Tx IP, Silicon Proven in 40G
The V-by-One HS technology aims to transmit video signals at a high data rate using an internal connection between devices. The requirements to create...
17
0.0
V-by-One/ LVDS Tx IP, Silicon Proven in SMIC 40LL
The V-by-One® HS technology aims to transmit video signals at a high data rate using internal equipment connections. The requirements to create a tran...
18
0.0
V-by-One/LVDS Rx IP, Silicon Proven in GF 22FDX
The V-by-One® HS technology aims to transmit video signals at a high data rate using internal equipment connections. The requirements to create a tran...
19
0.0
V-by-One/LVDS Rx IP, Silicon Proven in SMIC 40LL
V-by-One® HS technology targets a high-speed data transmission of video signals based on internal connection of equipment. V-by-One® HS Standard defin...
20
0.0
V-by-One/LVDS Tx Combo PHY, Silicon Proven in 28HPC+
V-by-One/ LVDS Tx Combo PHY IP Core aims at achieving high-speed data transmission for video signals through internal equipment connections. The V-by-...
21
0.0
V-by-One/LVDS Tx IP, Silicon Proven in GF 22FDX
Based on internal equipment connections, the V-by-One® HS technology aims to transmit video signals at high data rates. The requirements to build a tr...
22
0.0
LVDS Tx IP, Silicon Proven SMIC 14SF+
The Low-Voltage Differential Signaling Transmitter IP Core provides a very High speed and Low power differential data transfer for Video interface and...