Renesas Electronics VCXO Clock Oscillators 2,400+

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Part	Manufacturer	Oscillator Type	Mounting Feature	No. of Terminals	Frequency Stability	Frequency Adjustment (Mechanical)	Package Body Material	Maximum Supply Voltage	Output Load	Maximum Supply Current	Nominal Supply Voltage	Package Equivalence Code	Maximum Rise Time	Linearity	Physical Dimension	Minimum Supply Voltage	Maximum Operating Temperature	Minimum Control Voltage	Minimum Operating Temperature	Terminal Finish	Frequency Deviation or Pullability	Nominal Operating Frequency	Maximum Control Voltage	Maximum Fall Time	Maximum Symmetry (%)	Additional Features	JESD-609 Code	Minimum Operating Frequency	Maximum Operating Frequency
810251AGILFT	Renesas Electronics	LVCMOS/LVTTL																		TIN							e3
XLH73V016.000000I	Renesas Electronics	HCMOS	SURFACE MOUNT	6	100 %	NO		3.465 V	15 pF		3.3 V		3 ms		7.0mm x 5.0mm x 1.3mm	3.135 V	85 Cel		-40 Cel		50 ppm	16 MHz		3 ns	55/45	ENABLE/DISABLE FUNCTION; ALSO COMPATIBLE WITH LVCMOS OUTPUT
810001DK-21LFT	Renesas Electronics	LVCMOS/LVTTL																		TIN							e3
FVXO-LC73BR-80.157	Renesas Electronics	LVDS	SURFACE MOUNT			NO		3.465 V	100 OHM		3.3 V		.4 ms	10 %	7.5mm x 5.2mm x 1.4mm	3.135 V	85 Cel	0 V	-40 Cel		50 ppm	80.157 MHz	3.3 V	.4 ns	55/45	TRI-STATE; ENABLE/DISABLE FUNCTION; TR, 10 INCH
XLH53V017.177600I	Renesas Electronics	HCMOS	SURFACE MOUNT	6	100 %	NO		3.465 V	15 pF	32 mA	3.3 V	DILCC6,.12	3 ms	10 %	5.0mm x 3.2mm x 1.1mm	3.135 V	85 Cel		-40 Cel		50 ppm	17.1776 MHz		3 ns	55/45	ENABLE/DISABLE FUNCTION
XLP73V720.000000I	Renesas Electronics	LVPECL
8N3DV85AC-0028CDI8	Renesas Electronics	LVPECL	SURFACE MOUNT	6	100 %	NO	CERAMIC	3.465 V	50 OHM	160 mA	3.3 V	DILCC6,.2,105	.5 ms	5 %	7.15mm x 5.15mm x 1.65mm	3.135 V	85 Cel	0 V	-40 Cel	Matte Tin (Sn)	787.5 ppm		3.3 V	.5 ns	55/45		e3	975 MHz	1300 MHz
8N3DV85LC-0030CDI8	Renesas Electronics	LVPECL																		Matte Tin (Sn)							e3
8N3DV85LC-0047CDI8	Renesas Electronics	LVPECL																		Matte Tin (Sn)							e3
8N3DV85LC-0055CDI8	Renesas Electronics	LVPECL																		Matte Tin (Sn)							e3
8N3DV85LC-0056CDI8	Renesas Electronics	LVPECL																		Matte Tin (Sn)							e3
8N3DV85LC-0061CDI8	Renesas Electronics	LVPECL																		Matte Tin (Sn)							e3
8N3DV85LC-0062CDI8	Renesas Electronics	LVPECL																		Matte Tin (Sn)							e3
8N3DV85LC-0154CDI8	Renesas Electronics	LVPECL																		Matte Tin (Sn)							e3
8N3DV85LC-0155CDI8	Renesas Electronics
8N3DV85LC-0170CDI8	Renesas Electronics	LVPECL																		Matte Tin (Sn)							e3
8N4DV85AC-0036CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85AC-0037CDI8	Renesas Electronics
8N4DV85AC-0038CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85AC-0039CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85AC-0040CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85AC-0043CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85AC-0044CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85AC-0045CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85AC-0046CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85AC-0048CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85AC-0049CDI8	Renesas Electronics
8N4DV85AC-0050CDI8	Renesas Electronics
8N4DV85AC-0051CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85AC-0053CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85AC-0054CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85BC-0020CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85BC-0021CDI8	Renesas Electronics
8N4DV85BC-0023CDI8	Renesas Electronics
8N4DV85FC-0150CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85FC-0151CDI8	Renesas Electronics
8N4DV85FC-0152CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85FC-0155CDI8	Renesas Electronics
8N4DV85FC-0157CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85FC-0159CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85FC-0161CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85FC-0162CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85FC-0165CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4DV85FC-0166CDI8	Renesas Electronics
8N4DV85FC-0167CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4SV75BC-0059CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4SV75BC-0061CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3
8N4SV75BC-0063CDI8	Renesas Electronics	LVDS																		Matte Tin (Sn)							e3

VCXO Clock Oscillators

Voltage Controlled Crystal Oscillators (VCXOs) are electronic devices that generate a stable clock signal with a frequency that can be controlled using a voltage input. They use a crystal resonator as the frequency-determining element, which is voltage-tuned using a varactor diode or a voltage-controlled amplifier. VCXOs offer several advantages in electronic circuit design.

One of the main benefits of VCXOs is their ability to generate a stable and precise clock signal that can be adjusted in real-time using a control voltage. This makes them suitable for use in applications that require precise timing, such as in digital signal processing and telecommunications. VCXOs can generate frequencies ranging from a few megahertz to several hundred megahertz, making them suitable for various electronic circuits.

VCXOs also offer a low phase noise, which is important in applications that require a clean and stable clock signal. The low phase noise of VCXOs makes them ideal for use in communication systems, network equipment, and instrumentation.

Finally, VCXOs have a relatively simple design and are easy to integrate into electronic systems. They are available in a range of package sizes and configurations, allowing them to be used in various applications. This makes them a cost-effective solution for frequency generation in electronic circuits.