Part Details for CDCLVD1213RGTT by Texas Instruments
Results Overview of CDCLVD1213RGTT by Texas Instruments
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- Number of Functional Equivalents: (10 options)
- CAD Models: (Available)
- Part Data Attributes: (Available)
- Reference Designs: (Not Available)
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CDCLVD1213RGTT Information
CDCLVD1213RGTT by Texas Instruments is a Clock Driver.
Clock Drivers are under the broader part category of Logic Components.
Digital logic governs the behavior of signals in electronic circuits, enabling complex decisions based on simple binary inputs (yes/no). Logic components perform operations from these signals. Read more about Logic Components on our Logic part category page.
US Tariff Estimator: CDCLVD1213RGTT by Texas Instruments
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Part Details for CDCLVD1213RGTT
CDCLVD1213RGTT CAD Models
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CDCLVD1213RGTT Part Data Attributes
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CDCLVD1213RGTT
Texas Instruments
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CDCLVD1213RGTT
Texas Instruments
Low jitter, 1:4 universal-to-LVDS buffer with selectable output divider 16-VQFN -40 to 85
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| Pbfree Code | Yes | |
| Rohs Code | Yes | |
| Part Life Cycle Code | Active | |
| Part Package Code | QFN | |
| Package Description | Hvqccn, Lcc16,.12sq,20 | |
| Pin Count | 16 | |
| Reach Compliance Code | Compliant | |
| ECCN Code | EAR99 | |
| HTS Code | 8542.39.00.60 | |
| Family | Cdc | |
| Input Conditioning | Differential | |
| JESD-30 Code | S-PQCC-N16 | |
| JESD-609 Code | e4 | |
| Length | 3 Mm | |
| Logic IC Type | Low Skew Clock Driver | |
| Moisture Sensitivity Level | 2 | |
| Number of Functions | 1 | |
| Number of Inverted Outputs | ||
| Number of Terminals | 16 | |
| Number of True Outputs | 4 | |
| Operating Temperature-Max | 85 °C | |
| Operating Temperature-Min | -40 °C | |
| Package Body Material | Plastic/Epoxy | |
| Package Code | HVQCCN | |
| Package Equivalence Code | LCC16,.12SQ,20 | |
| Package Shape | Square | |
| Package Style | Chip Carrier, Heat Sink/Slug, Very Thin Profile | |
| Packing Method | Tr | |
| Peak Reflow Temperature (Cel) | 260 | |
| Power Supply Current-Max (ICC) | 85 Ma | |
| Prop. Delay@Nom-Sup | 2.5 Ns | |
| Propagation Delay (tpd) | 2.5 Ns | |
| Qualification Status | Not Qualified | |
| Same Edge Skew-Max (tskwd) | 0.06 Ns | |
| Seated Height-Max | 1 Mm | |
| Supply Voltage-Max (Vsup) | 2.625 V | |
| Supply Voltage-Min (Vsup) | 2.375 V | |
| Supply Voltage-Nom (Vsup) | 2.5 V | |
| Surface Mount | Yes | |
| Technology | Cmos | |
| Temperature Grade | Industrial | |
| Terminal Finish | Nickel/Palladium/Gold (Ni/Pd/Au) | |
| Terminal Form | No Lead | |
| Terminal Pitch | 0.5 Mm | |
| Terminal Position | Quad | |
| Time@Peak Reflow Temperature-Max (s) | 30 | |
| Width | 3 Mm | |
| fmax-Min | 800 Mhz |
Alternate Parts for CDCLVD1213RGTT
This table gives cross-reference parts and alternative options found for CDCLVD1213RGTT. The Form Fit Function (FFF) tab will give you the options that are more likely to serve as direct pin-to-pin alternates or drop-in parts. The Functional Equivalents tab will give you options that are likely to match the same function of CDCLVD1213RGTT, but it may not fit your design. Always verify details of parts you are evaluating, as these parts are offered as suggestions for what you are looking for and are not guaranteed.
| Part Number | Manufacturer | Composite Price | Description | Compare |
|---|---|---|---|---|
| SY58011UMI | Micrel Inc | Check for Price | Low Skew Clock Driver, 58011 Series, 2 True Output(s), 0 Inverted Output(s), 3 X 3 MM, MLF-16 | CDCLVD1213RGTT vs SY58011UMI |
| SY89874UMI | Microchip Technology Inc | Check for Price | Low Skew Clock Driver, 89874 Series, 2 True Output(s), 0 Inverted Output(s), 3 X 3 MM, MLF-16 | CDCLVD1213RGTT vs SY89874UMI |
| ICS8545AG | Integrated Device Technology Inc | Check for Price | Low Skew Clock Driver, 4 True Output(s), 4 Inverted Output(s), PDSO20, MO-153, TSSOP-20 | CDCLVD1213RGTT vs ICS8545AG |
| ICS8525GT | Integrated Device Technology Inc | Check for Price | Low Skew Clock Driver, 4 True Output(s), 4 Inverted Output(s), PDSO20, MO-153, TSSOP-20 | CDCLVD1213RGTT vs ICS8525GT |
| SY89832UMI | Micrel Inc | Check for Price | Low Skew Clock Driver, 89832 Series, 4 True Output(s), 0 Inverted Output(s), 3 X 3 MM, MLF-16 | CDCLVD1213RGTT vs SY89832UMI |
| ICS854104AGT | Integrated Device Technology Inc | Check for Price | Low Skew Clock Driver, 854104 Series, 4 True Output(s), 0 Inverted Output(s), PDSO16, 4.40 X 5 MM, 0.92 MM HEIGHT, MO-153, TSSOP-16 | CDCLVD1213RGTT vs ICS854104AGT |
| ICS8535AGI-01LFT | Integrated Device Technology Inc | Check for Price | Low Skew Clock Driver, 8535 Series, 4 True Output(s), 4 Inverted Output(s), PDSO20, 4.40 X 6.50 MM, 0.92 MM HEIGHT, LEAD FREE, MO-153, TSSOP-20 | CDCLVD1213RGTT vs ICS8535AGI-01LFT |
| IDT5T93GL04PGI | Integrated Device Technology Inc | Check for Price | Low Skew Clock Driver, 5T Series, 4 True Output(s), 0 Inverted Output(s), PDSO24, TSSOP-24 | CDCLVD1213RGTT vs IDT5T93GL04PGI |
| 8SLVD1208NBGI/W | Integrated Device Technology Inc | Check for Price | VFQFPN-28, Reel | CDCLVD1213RGTT vs 8SLVD1208NBGI/W |
| SY89832UMI | Microchip Technology Inc | Check for Price | Low Skew Clock Driver, 89832 Series, 4 True Output(s), 0 Inverted Output(s), 3 X 3 MM, MLF-16 | CDCLVD1213RGTT vs SY89832UMI |
CDCLVD1213RGTT Frequently Asked Questions (FAQ)
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Texas Instruments recommends a symmetrical layout with a central clock source, using a star topology for clock distribution. Keep clock traces short, and use a solid ground plane to reduce noise. Avoid crossing clock traces with other signals, and use a common clock reference point.
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Use a 50-ohm termination resistor in series with the output clock signal, and a 10-20 pF capacitor to ground for AC coupling. This ensures signal integrity and prevents signal reflection.
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Use a 10-22 uF capacitor in parallel with a 100-220 nF capacitor, both connected between the power pin and ground. Add a 10-ohm resistor in series with the power supply to filter out noise.
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Use the TI Clock Design Tool or consult the datasheet for specific configuration settings. The device can be configured using the SEL pins or through I2C programming.
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The CDCLVD1213RGTT supports clock frequencies up to 200 MHz. Higher clock frequencies increase power consumption, so it's essential to optimize the clock frequency for the specific application.