Design & Reuse
5423 IP
4801
0.0
TSMC CLN28HPCLVT 28nm General Purpose PLL - 440MHz-2200MHz
The General Purpose PLL is a wide range clock multiplier with deskew capability. It contains a 1-16 divider at the reference clock input, a 1-64 divid...
4802
0.0
TSMC CLN28HPCLVT 28nm LPDDR3 PHY - 2133Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4803
0.0
TSMC CLN28HPCLVT 28nm LPDDR4 PHY - 2933Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4804
0.0
TSMC CLN28HPCLVT 28nm LPDDR5 PHY - 3200Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4805
0.0
TSMC CLN28HPCLVT 28nm Multi Phase DLL - 220MHz-1100MHz
The Multi Phase DLL is designed for high-speed interface applications. The DLL generates precise multi-phase clocks directly from the reference clock....
4806
0.0
TSMC CLN28HPCLVT 28nm Multi Phase DLL - 440MHz-2200MHz
The Multi Phase DLL is designed for high-speed interface applications. The DLL generates precise multi-phase clocks directly from the reference clock....
4807
0.0
TSMC CLN28HPCLVT 28nm Multi Phase DLL - 880MHz-4400MHz
The Multi Phase DLL is designed for high-speed interface applications. The DLL generates precise multi-phase clocks directly from the reference clock....
4808
0.0
TSMC CLN28HPCLVT 28nm Spread Spectrum PLL - 188MHz-943MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
4809
0.0
TSMC CLN28HPCLVT 28nm Spread Spectrum PLL - 378MHz-1890MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
4810
0.0
TSMC CLN28HPCLVT 28nm Spread Spectrum PLL - 754MHz-3770MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
4811
0.0
TSMC CLN28HPCLVT 28nm Ultra PLL - 15MHz-3000MHz
The Ultra PLL is designed with a state-of-the-art architecture using high-speed digital and analog circuits that offers exceptional performance, featu...
4812
0.0
TSMC CLN28HPCP 28nm DDR3 PHY - 2133Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4813
0.0
TSMC CLN28HPCP 28nm DDR4 PHY - 2933Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4814
0.0
TSMC CLN28HPCP 28nm DDR5 PHY - 3200Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4815
0.0
TSMC CLN28HPCP 28nm LPDDR3 PHY - 2133Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4816
0.0
TSMC CLN28HPCP 28nm LPDDR4 PHY - 2933Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4817
0.0
TSMC CLN28HPCP 28nm LPDDR5 PHY - 3200Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4818
0.0
TSMC CLN28HPCPLVT 28nm DDR3 PHY - 2133Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4819
0.0
TSMC CLN28HPCPLVT 28nm DDR4 PHY - 2933Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4820
0.0
TSMC CLN28HPCPLVT 28nm DDR5 PHY - 3200Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4821
0.0
TSMC CLN28HPCPLVT 28nm LPDDR3 PHY - 2133Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4822
0.0
TSMC CLN28HPCPLVT 28nm LPDDR4 PHY - 2933Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4823
0.0
TSMC CLN28HPCPLVT 28nm LPDDR5 PHY - 3200Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4824
0.0
TSMC CLN28HPL 28nm DDR3 PHY - 2133Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4825
0.0
TSMC CLN28HPL 28nm DDR4 PHY - 2933Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4826
0.0
TSMC CLN28HPL 28nm DDR5 PHY - 3200Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4827
0.0
TSMC CLN28HPL 28nm LPDDR3 PHY - 2133Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4828
0.0
TSMC CLN28HPL 28nm LPDDR4 PHY - 2933Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4829
0.0
TSMC CLN28HPL 28nm LPDDR5 PHY - 3200Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4830
0.0
TSMC CLN28HPL 28nm Ultra PLL - 15MHz-3000MHz
The Ultra PLL is designed with a state-of-the-art architecture using high-speed digital and analog circuits that offers exceptional performance, featu...
4831
0.0
TSMC CLN28HPM 28nm DDR3 PHY - 2133Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4832
0.0
TSMC CLN28HPM 28nm DDR4 PHY - 2933Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4833
0.0
TSMC CLN28HPM 28nm DDR5 PHY - 3200Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4834
0.0
TSMC CLN28HPM 28nm LPDDR3 PHY - 2133Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4835
0.0
TSMC CLN28HPM 28nm LPDDR4 PHY - 2933Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4836
0.0
TSMC CLN28HPM 28nm LPDDR5 PHY - 3200Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4837
0.0
TSMC CLN28HPM 28nm Ultra PLL - 15MHz-3000MHz
The Ultra PLL is designed with a state-of-the-art architecture using high-speed digital and analog circuits that offers exceptional performance, featu...
4838
0.0
TSMC CLN28LP 28nm DDR3 PHY - 2133Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4839
0.0
TSMC CLN28LP 28nm DDR4 PHY - 2933Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4840
0.0
TSMC CLN28LP 28nm DDR5 PHY - 3200Mbps
The TCI DDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin individ...
4841
0.0
TSMC CLN28LP 28nm IoT PLL - 30MHz-400MHz
The IoT PLL is designed for very low power, sipping only 45uW at 30MHz and running from core power. It has a wide frequency range with multiplication ...
4842
0.0
TSMC CLN28LP 28nm LPDDR3 PHY - 2133Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4843
0.0
TSMC CLN28LP 28nm LPDDR4 PHY - 2933Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4844
0.0
TSMC CLN28LP 28nm LPDDR5 PHY - 3200Mbps
The TCI LPDDR PHY is a high-performance, scalable system using a radically new architecture that continuously and automatically adjusts each pin indiv...
4845
0.0
TSMC CLN28LP 28nm Ultra PLL - 15MHz-3000MHz
The Ultra PLL is designed with a state-of-the-art architecture using high-speed digital and analog circuits that offers exceptional performance, featu...
4846
0.0
TSMC CLN3P 3nm Clock Generator PLL - 200MHz-1000MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
4847
0.0
TSMC CLN3P 3nm Clock Generator PLL - 400MHz-2000MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
4848
0.0
TSMC CLN3P 3nm Clock Generator PLL - 800MHz-4000MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
4849
0.0
TSMC CLN3P 3nm DDR DLL - 188MHz-940MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
4850
0.0
TSMC CLN3P 3nm DDR DLL - 250MHz-1250MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...