Products Intellectual Property Overview Analog IP
Analog IP |
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1Msps, 14 bit single channel Successive Approximation (SAR) Analog to Digital Converter (ADC) The CXIP6K14b1A is a complete 14-bit, 1Msps analog-to-digital converter (ADC). The excellent resolution combined with high sampling rate makes this converter a logical choice for industrial and medical data acquisition requirements such as process control, pressure sensors, ultrasound and PET scanning. As an analog interface building block, the CXIP6K14b1A offers a fully integrated interface solution including references and clock management. The CXIP6K14b1A includes an analog interface with a 1 Msps ADC with internal 1.25 V reference, and programmable gain and offset control. Easy interfacing with standard signals is provided by the 1Vpp differential input. Other signal levels can be accommodated using signal conditioning circuits. Only two power supplies are required, including 3v3 (output) and 1.2V for the analog section of the design. On-chip supplies can be used for this purpose. For applications requiring timing management, on-chip PLL’s can be used to generate acquisition clocks. ChipX offers PLL’s from 10MHz to 1GHz, including Spread Spectrum tracking PLL’s for noise sensitive applications. Interfacing to on-chip circuits is straightforward using a simple register access method. Using the 130nm UMC HS process, the CXIP6K14b1A requires little die area and is specified over the -40°C to 125°C temperature range. To make the completion of your mixed-signal or analog ASIC easier, ChipX offers an extensive catalog of analog building blocks, in 0.25, 0.18 and 0.13 technologies. These silicon proven building blocks allow the design of more complex functions, including signal conditioning front-end, level shifting applications, level detection, as well as a range of analog on-chip support circuits.
Custom and Turnkey Analog Design Need something that's not listed? ChipX offers customization of all analog building blocks. Typical customization includes different input voltages and optimization for a specific set of operating parameters, reducing power, and more. ChipX also offers complete turnkey design services. With just an idea, a high level block diagram, or a full schematic, we can implement the silicon you need using in-house, customer-owned, or third party IP combined with our design service. For more information, please contact ChipX
The CXIP6K10b210D is a complete 10-bit, 210Msps digital-to-analog converter (DAC). The 210Msps conversion rate is ideal for high resolution composite video applications including HDTV resolution up to 1080p, as well as for high speed wireless communications.
As an analog interface building block, the CXIP6K10b210D offers a fully integrated interface solution including references and clock management. The CXIP6K10b210D includes an analog current steering interface with a 210 Msps DAC with internal 1.21V reference. Easy interfacing with standard signals is provided by the differential current steering output. The output is capable of driving 1.2V signals such as video into a 75-Ohm terminated input. Other signal levels can be acommodated using signal conditioning circuits. To operate, only two power supplies are required, including 3v3 (current steering), 3v3 (bias) and 1.2V for the digital section of the design. For applications requiring timing management, on-chip PLLs can be used to generate pixel clocks. ChipX offers PLLs from 10MHz to 1GHz, including Spread Spectrum tracking PLLs for noise sensitive applications. Using the 130-nm UMC HS process, the CXIP6K10b210D requires minimal die area and is specified over a -40°C to 125°C temperature range.
The CXIP6K10b210DT is a complete 10-bit, 210Msps Digital-to-Analog Converter (DAC). The 210Msps conversion rate is ideal for high resolution component video applications including HDTV resolution up to 1080p, as well as for wireless communications.
As an analog interface building block, the CXIP6K10b210DT offers a fully integrated interface solution including references and clock management. The CXIP6K10b210D includes an analog current steering interface with a 210 Msps DAC with internal 1.21V reference. Easy interfacing with standard signals is provided by the differential current steering output. The output is capable of driving 1.2V signals such as video into a 75-Ohm terminated input. Other signal levels can be acommodated using signal conditioning circuits. Only two power supplies are required for operation. For applications requiring timing management, on-chip PLLs can be used to generate pixel clocks. ChipX offers PLLs from 10MHz to 1GHz, including Spread Spectrum tracking PLLs for noise sensitive applications. Using the 130-nm UMC HS process, the CXIP6K10b210DT requires minimal die area and is specified over a -40°C to 125°C temperature range.
The CXIP6K10b100A is a complete 10-bit, 100Msps analog-to-digital converter (ADC). The 100Msps conversion rate is ideal for mid-range composite video applications, as well as acquisition for wireless communications. As an analog interface building block, the CXIP6K10b100A offers a fully integrated interface solution including references and clock management. The CXIP6K10b100A includes an analog interface with a 100 Msps ADC with internal 1.25 V reference, and programmable gain and offset control. Easy interfacing with standard signals is provided by the 1Vpp differential input. Other signal levels can be accommodated using signal conditioning circuits. To operate, only two power supplies are required, including 3v3 (output) and 1.2V for the analog section of the design. On-chip supplies can be used for this purpose. For applications requiring timing management, on-chip PLL’s can be used to generate pixel clocks. ChipX offers PLL’s from 10MHz to 1GHz, including Spread Spectrum tracking PLL’s for noise sensitive applications. Interfacing to on-chip circuits is straightforward using a simple register access method. Using the 130nm UMC HS process, the CXIP6K10b100A requires little die area and is specified over the -40°C to 125°C temperature range. 160Msps, 10 bit single channel Analog to Digital Converter (ADC) The CXIP6K10b160A is a complete 10-bit, 160Msps analog-to-digital converter (ADC). The 160Msps conversion rate is ideal for high resolution range composite video applications, as well as acquisition for WiMax and other high speed wireless communications and IQ channel implementations. As an analog interface building block, the CXIP6K10b160A offers a fully integrated interface solution including references and clock management. The CXIP6K10b160A includes an analog interface with a 160 Msps ADC with internal 1.25 V reference, and programmable gain and offset control. Easy interfacing with standard signals is provided by the 1Vpp differential input. Other signal levels can be accommodated using signal conditioning circuits. To operate, only two power supplies are required, including 3v3 (output) and 1.2V for the analog section of the design. On-chip supplies can be used for this purpose. For applications requiring timing management, on-chip PLL’s can be used to generate pixel clocks. ChipX offers PLL’s from 10MHz to 1GHz, including Spread Spectrum tracking PLL’s for noise sensitive applications. Interfacing to on-chip circuits is straightforward using a simple register access method. Using the 130nm UMC HS process, the CXIP6K10b160A requires little die area and is specified over the -40°C to 125°C temperature range. The CXIP6K10b100A is a complete 10-bit, 100Msps analog-to-digital converter (ADC). The 100Msps conversion rate is ideal for mid-range composite video applications, as well as other high speed wireless communications and IQ channel implementations. As an analog interface building block, the CXIP6K10b100A offers a fully integrated interface solution including references and clock management. The CXIP6K10b100A includes an analog interface with a 100 Msps ADC with internal 1.25 V reference, and programmable gain and offset control. Easy interfacing with standard signals is provided by the 1Vpp differential input. Other signal levels can be accommodated using signal conditioning circuits. To operate, only two power supplies are required, including 3v3 (output) and 1.2V for the analog section of the design. On-chip supplies can be used for this purpose. For applications requiring timing management, on-chip PLL’s can be used to generate pixel clocks. ChipX offers PLL’s from 10MHz to 1GHz, including Spread Spectrum tracking PLL’s for noise sensitive applications. Interfacing to on-chip circuits is straightforward using a simple register access method. Using the 130nm UMC HS process, the CXIP6K10b100A requires little die area and is specified over the -40°C to 125°C temperature range. 40Msps, 10 bit single channel Analog to Digital Converter (ADC) The CXIP6K10b40A is a complete 10-bit, 40Msps analog-to-digital converter (ADC). The 40Msps conversion rate is ideal for composite video applications, as well as other wireless communications and IQ channel implementations including 802.11 a/b/g (WiFi), Zigbee etc. and fast industrial process control. As an analog interface building block, the CXIP6K10b40A offers a fully integrated interface solution including references and clock management. The CXIP6K10b40A includes an analog interface with a 40 Msps ADC with internal 1.25 V reference, and programmable gain and offset control. Easy interfacing with standard signals is provided by the 1Vpp differential input. Other signal levels can be accommodated using signal conditioning circuits. To operate, only two power supplies are required, including 3v3 (output) and 1.2V for the analog section of the design. On-chip supplies can be used for this purpose. For applications requiring timing management, on-chip PLL’s can be used to generate pixel clocks. ChipX offers PLL’s from 10MHz to 1GHz, including Spread Spectrum tracking PLL’s for noise sensitive applications. Interfacing to on-chip circuits is straightforward using a simple register access method. Using the 130nm UMC HS process, the CXIP6K10b40A requires little die area and is specified over the -40°C to 125°C temperature range. 12-bit, 20 Msps High Dynamic Range Low power Analog-to-Digital Converter (ADC) The CXIP6K12B20A High Dynamic Range Low power Analog-to-Digital Converter (HDRLP-ADC) provides accurate signal conversion for a variety of applications. This HDRLP-ADC can be included in a wide range of ChipX 130nm ASIC products, including the CX6500 Embedded Array and CX6900 Standard Cell ASIC. A built-in, HDRLP-ADC, in combination with the rich ChipX synthesizable and mixed-signal IP portfolio, allows for straightforward integration of complex data conversion systems in low power, economical silicon. IP solutions include synthesizable processors, PCIExpress, USB and DDR2 subsystems including PHY and controller, PLLs, DSP functions, and more than 200 other digital and mixed signal functions. The HDRLP-ADC product family builds on 20 years of mixed signal experience at ChipX. The core technology combines our accumulated design expertise with a focus on Industrial and Consumer market interface needs. The CX6000 HDRLP-ADC delivers an ideal solution that is high performance and appropriate for low to high-volume production. 12-bit, 40 Msps High Dynamic Range Low power Analog-to-Digital Converter (ADC) The CXIP6K12B40A High Dynamic Range Low power Analog-to-Digital Converter (HDRLP-ADC) provides accurate signal conversion for a variety of applications. This HDRLP-ADC can be included in a wide range of ChipX 130nm ASIC products, including the CX6500 Embedded Array and CX6900 Standard Cell ASIC. A built-in, HDRLP-ADC, in combination with the rich ChipX synthesizable and mixed-signal IP portfolio, allows for straightforward integration of complex data conversion systems in low power, economical silicon. IP solutions include synthesizable processors, PCIExpress, USB and DDR2 subsystems including PHY and controller, PLLs, DSP functions, and more than 200 other digital and mixed signal functions. 12-bit, 80 Msps High Dynamic Range Low power Analog-to-Digital Converter (ADC) The CXIP6K12B80A High Dynamic Range Analog-to-Digital Converter (HDR-ADC) provides accurate signal conversion for a variety of applications. This HDR-ADC can be included in a wide range of ChipX 130nm ASIC products, including the CX6500 Embedded Array and CX6900 Standard Cell ASIC. A built-in, HDR-ADC, in combination with the rich ChipX synthesizable and mixed-signal IP portfolio, allows for straightforward integration of complex data conversion systems in low power, economical silicon. IP solutions include synthesizable processors, PCIExpress, USB and DDR2 subsystems including PHY and controller, PLLs, DSP functions, and more than 200 other digital and mixed signal functions.
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