12-Bit 50 MSPS ADC in IBM 180 SOI |
By Quotes |
280.000 μm^2 |
50 MHz |
180 nm |
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MICIP_ADC12 is compact and low power 12-bit analog-to-digital converter silicon IP. This ADC uses 1.5b/stage pipelined architecture optimized for low power and small area.
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Introduction |
Dual-Channel 12-bit 80 MSPS ADC IP in UMC 65 nm |
By Quotes |
450.000 μm^2 |
0.8 MHz |
65 nm |
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ADC X is an ultra-compact and very low power analog-to-digital converter (ADC) IP. The 12-bit 80 MSPS Dual ADC includes an internal custom bandgap voltage reference. It is capable of supplying bias currents to other parallel ADCs. IP architecture is robust and can be ported to other
65 nm processes.The ADC uses fully differential pipeline architecture with custom low-disturbance digital correction technique which allows single supply bus for both digital and analog.
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Introduction |
High Speed CAN Transceiver |
By Quotes |
None |
1 MHz |
None |
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The MX102 is the interface between the Controller Area Network (CAN) protocol controller and the physical bus. It is primarily intended for high speed applications, up to 1 Mbps, in passenger cars. The device provides differential transmit capability to the bus and differential receive capability to the CAN controller. The MX102 also features a very low current standby mode with remote wake up capability via the bus.
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Introduction |
14-Bit 3 MSPS ADC in GSMC110nm |
By Quotes |
322.000 K μm^2 |
3 MHz |
110 nm |
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MCR_GS110_ADC14 is compact and low power 14-bit analog-to-digital converter silicon IP. It has 20 single-end input channel selection multiplexer or 10 differential input channels selection. This ADC uses fully differential SAR architecture optimized for low
The ADC is designed for high dynamic performance for input frequencies up to Nyquist rate.
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Introduction |
14-Bit 1MSPS DAC in GSMC110nm |
By Quotes |
75.000 K μm^2 |
1 MHz |
110 nm |
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MIC_DAC14 is compact and low power 14-bit digital-to-analog converter silicon IP. It features wide range input supply voltage from 1.7V to 5.6V. Its single-end output ranges from 0.1 to 0.9 of supply voltage.
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Introduction |
12-Bit 320MSPS IQ DAC in IBM SOI 180nm |
By Quotes |
254.000 K μm^2 |
320 MHz |
180 nm |
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MIC_DAC12X2 is compact and low power 12-bit digital-to-analog converter
silicon IP in IBM 180nm SOI process. It features two channel current steering DAC.
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Introduction |
MIPI M-PHY Gear 4 IP in TSMC 12nm FFC |
By Quotes |
None |
11 GHz |
12 nm |
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MIPI M-PHY Gear 4 IP is compliant with the latest MIPI.
Alliance M-PHY v4.1 Specification, UniPro v1.8 Specification, and Universal Flash Storage (UFS) v3.0 Specification. A serial interface technology with high bandwidth capabilities and supports HS Gear4 rates up to 11.6Gbps, which is particularly developed for mobile applications to obtain low pin count combined with very good power efficiency. The MIPI M-PHY Gear 4 IP compliant to the RMMI interface which allows UniPro controller and UFS Controller.
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Introduction |
MIPI M-PHY Gear 4 IP in TSMC 28nm HPC+ |
By Quotes |
None |
11 GHz |
28 nm |
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MIPI M-PHY Gear 4 IP is compliant with the latest MIPI.
Alliance M-PHY v4.1 Specification, UniPro v1.8 Specification, and Universal Flash Storage (UFS) v3.0 Specification. A serial interface technology with high bandwidth capabilities and supports HS Gear4 rates up to 11.6Gbps, which is particularly developed for mobile applications to obtain low pin count combined with very good power efficiency. The MIPI M-PHY Gear 4 IP compliant to the RMMI interface which allows UniPro controller and UFS Controller.
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Introduction |
PCI Express Gen4 PHY IP in TSMC 12nm FFC |
By Quotes |
None |
25 MHz |
12 nm |
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The Peripheral Component Interconnect Express (PCIe) x4 PHY is compliant with PCIe 4.0 Base Specification with support of PIPE v4.4 inter- face spec. Lower power consumption is achieved due to support of addition- al PLL control, reference clock control, and embedded power gating control. Also, since aforementioned low power mode setting is configurable, the PHY is widely applicable for various scenarios under different consideration of power consumption.
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Introduction |
PCI Express Gen4 PHY IP in 28nm HPC+ |
By Quotes |
None |
25 MHz |
28 nm |
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The Peripheral Component Interconnect Express (PCIe) x4 PHY is compliant with PCIe 4.0 Base Specification with support of PIPE v4.4 inter- face spec. Lower power consumption is achieved due to support of addition- al PLL control, reference clock control, and embedded power gating control. Also, since aforementioned low power mode setting is configurable, the PHY is widely applicable for various scenarios under different consideration of power consumption.
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Introduction |