Product details

Function Ultra-low jitter clock generator Number of outputs 8 Output frequency (max) (MHz) 1000 Core supply voltage (V) 3.3 Output supply voltage (V) 1.8, 2.5, 3.3 Input type CML, LVDS, LVPECL, XTAL Output type CML, HCSL, LVCMOS, LVDS, LVPECL Operating temperature range (°C) -40 to 85 Features I2C, Integrated EEPROM, Pin programmable Rating Catalog
Function Ultra-low jitter clock generator Number of outputs 8 Output frequency (max) (MHz) 1000 Core supply voltage (V) 3.3 Output supply voltage (V) 1.8, 2.5, 3.3 Input type CML, LVDS, LVPECL, XTAL Output type CML, HCSL, LVCMOS, LVDS, LVPECL Operating temperature range (°C) -40 to 85 Features I2C, Integrated EEPROM, Pin programmable Rating Catalog
WQFN (RHS) 48 49 mm² 7 x 7
  • Ultra Low Noise, High Performance
    • Jitter: 100-fs RMS Typical, FOUT > 100 MHz
    • PSNR: –80 dBc, Robust Supply Noise Immunity
  • Flexible Device Options
    • Up to 8 AC-LVPECL, AC-LVDS, AC-CML, HCSL or LVCMOS Outputs, or Any Combination
    • Pin Mode, I2C Mode, and EEPROM Mode
    • 71-Pin Selectable Pre-Programmed Default Start-Up Options
  • Dual Inputs With Automatic or Manual Selection
    • Crystal Input: 10 to 52 MHz
    • External Input: 1 to 300 MHz
  • Frequency Margining Options
    • Fine Frequency Margining (±50 ppm Typical) Using Low-Cost Pullable Crystal Reference
    • Glitchless Coarse Frequency Margining (%) Using Output Dividers
  • Other Features
    • Supply: 3.3-V Core, 1.8-V, 2.5-V, 3.3-V Output Supply
    • Industrial Temperature Range (–40ºC to +85ºC)
    • Package: 7-mm × 7-mm 48-WQFN
  • Ultra Low Noise, High Performance
    • Jitter: 100-fs RMS Typical, FOUT > 100 MHz
    • PSNR: –80 dBc, Robust Supply Noise Immunity
  • Flexible Device Options
    • Up to 8 AC-LVPECL, AC-LVDS, AC-CML, HCSL or LVCMOS Outputs, or Any Combination
    • Pin Mode, I2C Mode, and EEPROM Mode
    • 71-Pin Selectable Pre-Programmed Default Start-Up Options
  • Dual Inputs With Automatic or Manual Selection
    • Crystal Input: 10 to 52 MHz
    • External Input: 1 to 300 MHz
  • Frequency Margining Options
    • Fine Frequency Margining (±50 ppm Typical) Using Low-Cost Pullable Crystal Reference
    • Glitchless Coarse Frequency Margining (%) Using Output Dividers
  • Other Features
    • Supply: 3.3-V Core, 1.8-V, 2.5-V, 3.3-V Output Supply
    • Industrial Temperature Range (–40ºC to +85ºC)
    • Package: 7-mm × 7-mm 48-WQFN

The LMK03328 device is an ultra-low-noise clock generator with two fractional-N frequency synthesizers with integrated VCOs, flexible clock distribution and fanout, and pin-selectable configuration states stored in on-chip EEPROM. The device can generate multiple clocks for various multi-gigabit serial interfaces and digital devices, reduces BOM cost and board area, and improves reliability by replacing multiple oscillators and clock distribution devices. The ultra-low-jitter reduces bit error rate (BER) in high-speed serial links.

For each PLL, a differential/single-ended clock or crystal input can be selected as the PLL reference clock. The selected PLL reference input can be used to lock the VCO frequency at an integer or fractional multiple of the reference input frequency. The VCO frequency for the respective PLLs can be tuned between 4.8 GHz and 5.4 GHz. Both PLL/VCOs are equivalent in performance and functionality. Each PLL offers the flexibility to select a predefined or user-defined loop bandwidth, depending on the needs of the application. Each PLL has a post-divider that can be selected between divide-by 2, 3, 4, 5, 6, 7, or 8.

All the output channels can select the divided-down VCO clock from PLL1 or PLL2 as the source for the output divider to set the final output frequency. Some output channels can also independently select the reference input for PLL1 or PLL2 as an alternative source to be bypassed to the corresponding output buffers. The 8-bit output dividers support a divide range of 1 to 256 (even or odd), output frequencies up to 1 GHz, and output phase synchronization capability.

All output pairs are ground-referenced CML drivers with programmable swing that can be interfaced to LVDS or LVPECL or CML receivers with AC coupling. All output pairs can also be independently configured as HCSL outputs or 2x 1.8-V LVCMOS outputs. The outputs offer lower power at 1.8 V, higher performance and power supply noise immunity, and lower EMI compared to voltage-referenced driver designs (such as traditional LVDS and LVPECL drivers). Two additional 3.3-V LVCMOS outputs can be obtained through the STATUS pins. This is an optional feature in case of a need for 3.3-V LVCMOS outputs and device status signals are not needed.

The device features self start-up from on-chip programmable EEPROM or pre-defined ROM memory, which offers multiple custom device modes selectable through pin control and can eliminate the need for serial programming. The device registers and on-chip EEPROM settings are fully programmable via I2C-compatible serial interface. The device slave address is programmable in EEPROM and LSBs are settable with a 3-state pin.

The device provides two frequency margining options with glitch-free operation to support system design verification tests (DVT), such as standard compliance and system timing margin testing. Fine frequency margining (in ppm) can be supported by using a low-cost pullable crystal on the internal crystal oscillator (XO), and selecting this input as the reference to the PLL synthesizer. The frequency margining range is determined by the crystal’s trim sensitivity and the on-chip varactor range. XO frequency margining can be controlled through pin or I2C control for ease-of-use and high flexibility. Coarse frequency margining (in %) is available on any output channel by changing the output divide value through I2C interface, which synchronously stops and restarts the output clock to prevent a glitch or runt pulse when the divider is changed.

Internal power conditioning provide excellent power supply noise rejection (PSNR), reducing the cost and complexity of the power delivery network. The analog and digital core blocks operate from 3.3-V ± 5% supply and output blocks operate from 1.8-V, 2.5-V, 3.3-V ± 5% supply.

The LMK03328 device is an ultra-low-noise clock generator with two fractional-N frequency synthesizers with integrated VCOs, flexible clock distribution and fanout, and pin-selectable configuration states stored in on-chip EEPROM. The device can generate multiple clocks for various multi-gigabit serial interfaces and digital devices, reduces BOM cost and board area, and improves reliability by replacing multiple oscillators and clock distribution devices. The ultra-low-jitter reduces bit error rate (BER) in high-speed serial links.

For each PLL, a differential/single-ended clock or crystal input can be selected as the PLL reference clock. The selected PLL reference input can be used to lock the VCO frequency at an integer or fractional multiple of the reference input frequency. The VCO frequency for the respective PLLs can be tuned between 4.8 GHz and 5.4 GHz. Both PLL/VCOs are equivalent in performance and functionality. Each PLL offers the flexibility to select a predefined or user-defined loop bandwidth, depending on the needs of the application. Each PLL has a post-divider that can be selected between divide-by 2, 3, 4, 5, 6, 7, or 8.

All the output channels can select the divided-down VCO clock from PLL1 or PLL2 as the source for the output divider to set the final output frequency. Some output channels can also independently select the reference input for PLL1 or PLL2 as an alternative source to be bypassed to the corresponding output buffers. The 8-bit output dividers support a divide range of 1 to 256 (even or odd), output frequencies up to 1 GHz, and output phase synchronization capability.

All output pairs are ground-referenced CML drivers with programmable swing that can be interfaced to LVDS or LVPECL or CML receivers with AC coupling. All output pairs can also be independently configured as HCSL outputs or 2x 1.8-V LVCMOS outputs. The outputs offer lower power at 1.8 V, higher performance and power supply noise immunity, and lower EMI compared to voltage-referenced driver designs (such as traditional LVDS and LVPECL drivers). Two additional 3.3-V LVCMOS outputs can be obtained through the STATUS pins. This is an optional feature in case of a need for 3.3-V LVCMOS outputs and device status signals are not needed.

The device features self start-up from on-chip programmable EEPROM or pre-defined ROM memory, which offers multiple custom device modes selectable through pin control and can eliminate the need for serial programming. The device registers and on-chip EEPROM settings are fully programmable via I2C-compatible serial interface. The device slave address is programmable in EEPROM and LSBs are settable with a 3-state pin.

The device provides two frequency margining options with glitch-free operation to support system design verification tests (DVT), such as standard compliance and system timing margin testing. Fine frequency margining (in ppm) can be supported by using a low-cost pullable crystal on the internal crystal oscillator (XO), and selecting this input as the reference to the PLL synthesizer. The frequency margining range is determined by the crystal’s trim sensitivity and the on-chip varactor range. XO frequency margining can be controlled through pin or I2C control for ease-of-use and high flexibility. Coarse frequency margining (in %) is available on any output channel by changing the output divide value through I2C interface, which synchronously stops and restarts the output clock to prevent a glitch or runt pulse when the divider is changed.

Internal power conditioning provide excellent power supply noise rejection (PSNR), reducing the cost and complexity of the power delivery network. The analog and digital core blocks operate from 3.3-V ± 5% supply and output blocks operate from 1.8-V, 2.5-V, 3.3-V ± 5% supply.

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Technical documentation

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Type Title Date
* Data sheet LMK03328 Ultra-Low Jitter Clock Generator With Two Independent PLLs, Eight Outputs, Integrated EEPROM datasheet (Rev. D) PDF | HTML 20 Apr 2018
Application note Clocking for PCIe Applications PDF | HTML 28 Nov 2023
Technical article Clock tree fundamentals: finding the right clocking devices for your design PDF | HTML 24 Mar 2021
Application note Clocking for Medical Ultrasound Systems (Rev. A) PDF | HTML 30 Sep 2020
Technical article Can a clock generator act as a jitter cleaner? PDF | HTML 23 Mar 2017
Technical article The five benefits of multifaceted clocking devices PDF | HTML 17 May 2016
Technical article Complete clock-tree solutions that make a hardware designer’s life easier PDF | HTML 10 Mar 2016
Application note Clocking High Speed Serial Links with LMK033X8 (Rev. A) 07 Jan 2016
Application note Frequency Margining Using TI High-Performance Clock Generators (Rev. A) 12 Dec 2015
Technical article How to select an optimal clocking solution for your FPGA-based design PDF | HTML 09 Dec 2015
EVM User's guide LMK03328EVM CodeLoader Software User's Guide 25 Aug 2015
EVM User's guide LMK03328EVM User's Guide 25 Aug 2015

Design & development

For additional terms or required resources, click any title below to view the detail page where available.

Evaluation board

LMK03328EVM — LMK03328EVM Ultra-Low-Jitter Clock Generator EVM With 2 PLLs, 8 Differential Outputs, and 2 Inputs

The LMK03328EVM evaluation module provides a complete clocking platform to evaluate the 100-fs RMS jitter performance and pin-/software-configuration modes and features of the Texas Instruments LMK03328 Ultra-Low-Jitter Clock Generator with Dual PLLs, 8 outputs, 2 inputs, and integrated EEPROM.

The (...)

User guide: PDF
Not available on TI.com
Software programming tool

SNAC069 LMK03328EVM Default EEPROM Image File

Supported products & hardware

Supported products & hardware

Products
Clock generators
LMK03328 Ultra-low jitter clock generator family with two independent PLLs
Hardware development
Evaluation board
LMK03328EVM LMK03328EVM Ultra-Low-Jitter Clock Generator EVM With 2 PLLs, 8 Differential Outputs, and 2 Inputs
Support software

TICSPRO-SW TICS Pro v1.7.7.2, 05-Feb-2024

Texas Instruments clocks and synthesizers (TICS) pro software is used to program the evaluation modules (EVMs) for product numbers with these prefixes: CDC, LMK and LMX. These products include phase-locked loops and voltage-controlled oscillators (PLL+VCO), synthesizers and clocking devices.

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Supported products & hardware

Supported products & hardware

Products
Clock generators
CDCE6214-Q1 Ultra-low power clock generator supporting PCIe gen 1-5 with 2 inputs, 4 outputs and internal EEPROM CDCI6214 PCIe Gen4 support ultra-low power clock generator with four programmable outputs & EEPROM LMK02000 1 to 800-MHz, precision clock distributor with integrated PLL and 3 LVDS / 5 LVPECL outputs LMK02002 1 to 800-MHz, precision clock distributor with integrated PLL and 4 LVPECL outputs LMK03200 Precision 0-delay clock conditioner with integrated VCO LMK03318 Ultra-low jitter clock generator family with single PLL LMK03328 Ultra-low jitter clock generator family with two independent PLLs LMK03806 Ultra-low jitter clock generator with 14 outputs LMK3H0102 Bulk acoustic wave (BAW)-based PCIe Gen 1 to Gen 6-compliant referenceless clock generator
RF PLLs & synthesizers
LMX1204 12.8-GHz RF buffer, multiplier and divider with JESD204B/C SYSREF support and phase synchronization LMX2485 500-MHz to 3-GHz delta-sigma low power dual PLL for RF personal communications LMX2485E 50-MHz to 3-GHz delta-sigma low power dual PLL for RF personal communications LMX2485Q-Q1 500MHz to 3GHz automotive delta-sigma low power dual PLL LMX2486 1-GHz to 4.5-GHz delta-sigma low power dual PLL for RF personal communications LMX2487 1 to 6-GHz delta-sigma low power dual PLLatinum frequency synthesizer with 3.0-GHz integer PLL LMX2487E 3-GHz to 7.5-GHz delta-sigma low power dual PLL for RF personal communications LMX2491 6.4-GHz low noise fractional-N PLL with ramp/chirp generation LMX2492 500MHz to 14GHz wideband, low noise fractional-N PLL with ramp/chirp generation LMX2492-Q1 Automotive grade 500-MHz to 14-GHz wideband, low noise fractional-N PLL with ramp/chirp generation LMX2531 High performance frequency synthesizer system with integrated VCO LMX2541 Ultra-low noise PLLatinum frequency synthesizer with integrated VCO LMX2571 1.34-GHz, low-power, extreme-temperature RF synthesizer with frequency-shift keying (FSK) modulation LMX2571-EP Enhanced-product, 1.34-GHz, low-power, extreme-temperature RF synthesizer with FSK modulation LMX2572 6.4-GHz low-power wideband RF synthesizer LMX2572LP 2-GHz low power wideband RF synthesizer with FSK modulation LMX2581 3.76-GHz wideband frequency synthesizer with integrated VCO LMX2581E 3.8-GHz wideband frequency synthesizer with integrated VCO LMX2582 5.5-GHz high performance, wideband PLLatinum RF synthesizer LMX2592 9.8-GHz wideband frequency synthesizer with integrated VCO LMX2594 15-GHz wideband PLLatinum™ RF synthesizer with phase synchronization and JESD204B support LMX2595 20-GHz wideband RF synthesizer with phase synchronization & JESD204B support LMX2820 22.6-GHz wideband RF synthesizer with phase synchronization, JESD and <5-µs frequency calibration LMX1214 1:5 16GHz RF buffer and divider with auxiliary clock LMX1906-SP Radiation-hardness-assured (RHA) 15GHz buffer, multiplier and divider with SYSREF and FPGA clock
Clock jitter cleaners & synchronizers
LMK04100 Precision clock conditioners clock jitter cleaner with cascaded PLLs LMK04101 Jitter cleaner with integrated 1430 to 1570-MHz VCO:3 outputs for 2VPEC/LVPEC+4 outputs for LVCOMS LMK04102 Jitter cleaner with integrated 1600 to 1750-MHz VCO:3 outputs for 2VPEC/LVPEC+4 outputs for LVCOMS LMK04110 Jitter cleaner with integrated 1185 to 1296-MHz VCO:5 outputs for 2VPEC/LVPEC LMK04111 Jitter cleaner with integrated 1430 to 1570-MHz VCO:5 outputs for 2VPEC/LVPEC LMK04131 Jitter cleaner with integrated 1430 to 1570-MHz VCO:2 outputs for 2VPEC/LVPEC+LVDS+LVCOMS LMK04133 Jitter cleaner with integrated 1840 to 2160-MHz VCO:2 outputs for 2VPEC/LVPEC+LVDS+LVCOMS LMK04208 Ultra low-noise clock jitter cleaner with 6 programmable outputs LMK04228 Ultra low-noise clock jitter cleaner with dual loop PLLs LMK04610 Ultra low-noise and low power JESD204B compliant clock jitter cleaner with dual PLLs LMK04616 Ultra low-noise and low power JESD204B compliant clock jitter cleaner LMK04803 Low-noise clock jitter cleaner with dual cascaded PLLs and integrated 1.9-GHz VCO LMK04816 Three input low-noise clock jitter cleaner with dual loop PLLs LMK04821 Ultra low jitter synthesizer and jitter cleaner with JESD204B support LMK04826 Ultra low-noise JESD204B compliant clock jitter cleaner with integrated 1840 to1970-MHz VCO0 LMK04828 Ultra low-noise JESD204B compliant clock jitter cleaner with integrated 2370 to 2630-MHz VCO0. LMK04828-EP Ultra low-noise JESD204B compliant clock jitter cleaner with temperature range -55 to 105c LMK04832 Ultra-low-noise, 3.2-GHz, 15-output, JESD204B clock jitter cleaner with dual loop LMK04832-SEP Radiation-tolerant, 30-krad, ultra-low-noise, 3.2-GHz 15-output JESD204C clock jitter cleaner LMK04832-SP Radiation-hardened-assured (RHA), ultra-low-noise, 3.2-GHz, 15-output clock jitter cleaner LMK05028 Low-jitter dual-channel network synchronizer clock LMK05318 Ultra-low jitter single channel network synchronizer clock with BAW LMK05318B Ultra-low jitter single channel network synchronizer clock with BAW LMK5B12204 Ultra-low jitter clock generator with network synchronization and BAW technology LMK5B33216 16-output, three DPLL and APLL, network synchronizer with integrated 2.5-GHz bulk-acoustic-wave VCO LMK5B33414 14-output, three DPLL and APLL, network synchronizer with integrated 2.5-GHz bulk-acoustic-wave VCO LMK5C33216 Ultra-low jitter clock synchronizer with JESD204B for wireless communications with BAW LMK04368-EP Enhanced product ultra-low-noise 3.2-GHz JESD204C jitter cleaner LMK04714-Q1 Automotive, ultra low-noise 3.2-GHz, JESD204B and JESD204C dual-loop clock jitter cleaner LMK5C33216A Three DPLL, three APLL, two-input and 16-output network synchronizer with JESD204B/C and BAW VCO
Clock buffers
CDCDB800 8-output clock buffer for PCIe® Gen 1 to Gen 6 LMK01000 1.6-GHz high performance clock buffer, divider, and distributor with 3 LVDS & 5 LVPECL outputs LMK01010 1.6-GHz high performance clock buffer, divider, and distributor with 8 LVDS outputs LMK01020 1.6-GHz high performance clock buffer, divider, and distributor with 8 LVPECL outputs LMK01801 Dual clock distribution LMK1D1208I 8-channel output, 1.8-V, 2.5-V, and 3.3-V LVDS buffer with I²C CDCDB2000 DB2000QL compliant 20-output clock buffer for PCIe® Gen 1 to Gen 5 LMKDB1108 8-output LP-HCSL clock buffer for PCIe Gen 1 to Gen 6 LMKDB1120 DB2000QL-compliant 20-output clock buffer for PCIe Gen 1 to Gen 6
Oscillators
LMK61E0M LVCMOS ultra-low jitter programmable oscillator with internal EEPROM LMK61E2 156.250-MHz, ±50 ppm, ultra-low jitter, integrated EEPROM, fully programmable oscillator
Hardware development
Evaluation board
LMK03806BEVAL LMK03806B Evaluation Board LMK04208EVM Two Input, 6+1 Output, Clock Jitter Cleaner With Dual Cascaded PLLs and Integrated 2.9 GHz VCO LMK04616EVM LMK04616 Evaluation Module LMK04803BEVAL Clock Jitter Cleaner With Dual Cascaded PLLs and Integrated 1.9 GHz VCO LMK04805BEVAL Clock Jitter Cleaner With Dual Cascaded PLLs and Integrated 2.2 GHz VCO LMK04806BEVAL Clock Jitter Cleaner With Dual Cascaded PLLs and Integrated 2.5 GHz VCO LMK04808BEVAL Clock Jitter Cleaner With Dual Cascaded PLLs and Integrated 2.9 GHz VCO LMK04816BEVAL Three Input, Thirteen Output, Clock Jitter Cleaner with Dual Cascaded PLLs and Integrated 2.5 GHz VC LMK04826BEVM LMK04826BEVM Evaluation Module LMK04828BEVM LMK04828 evaluation module LMK04832EVM LMK04832 JESD204B Clock Jitter Cleaner/Clock Generator/Distribution Evaluation Module LMK04832SEPEVM LMK04832-SEP evaluation module for ultra-low-noise, 3.2-GHz 15-output clock jitter clea LMK04906BEVAL Three Input, Seven Output, Clock Jitter Cleaner with Dual Cascaded PLLs and Integrated 2.5 GHz VCO LMK5B33216EVM LMK5B33216 evaluation module for 16-output, three DPLL and APLL, network synchronizer with BAW VCO LMX2571EPEVM LMX2571-EP evaluation module for 1.34-GHz, low-power, extreme-temperature RF synthesizer LMX2582EVM LMX2582EVM High Performance, Wideband Frequency PLLatinum RF Synthesizer With Integrated VCO LMX2592EVM LMX2592EVM high-performance, wideband frequency RF synthesizer PLLATINUM™ integrated circuit LMX2594PSEVM LMX2594 evaluation module for 15-GHz RF synthesizer with multiple-device phase synchronization XMICR-3P-LMX2492 LMX2492 X-MWblock evaluation modules XMICR-3P-LMX2572 LMX2572 X-MWblock evaluation modules XMICR-3P-LMX2592 LMX2592 X-MWblock evaluation modules XMICR-3P-LMX2594 LMX2594 X-MWblock evaluation modules XMICR-3P-LMX2595 LMX2595 X-MWblock evaluation modules LMK04832EVM-CVAL LMK04832-SP evaluation module for ultra-low-noise, dual-loop, JESD204B clock jitter cleaner LMK04368EPEVM LMK04368-EP evaluation module for JESD204B/C dual-loop clock jitter cleaner LMK61E0MEVM LMK61E0M Ultra-Low-Jitter Programmabler Oscillator Evaluation Module LMK61E2EVM LMK61E2EVM Ultra-Low-Jitter Programmable Oscillator Evaluation Module LMX1204EVM LMX1204 evaluation module for RF buffer, multiplier and divider with JESD204B/C SYSREF support LMX2594EVM LMX2594EVM 15-GHz wideband RF synthesizer with phase synchronization & JESD204B evaluation module LMX2595EVM 20-GHz Wideband RF Synthesizer With Phase Synchronization and JESD204B Evaluation Module LMX2615EVM-CVAL Space grade synthesizer evaluation module LMX2694EPEVM 15-GHz wideband RF synthesizer evaluation module LMX2572EVM 6.4-GHz Low Power Wideband RF Synthesizer with Phase Synchronization and JESD204B Support LMX2572LPEVM 2-GHz Low Power Wideband RF Synthesizer with FSK Modulation Evaluation Module LMX2581EVM LMX2581 evaluation module LMX2820EVM LMX2820 22.6-GHz wideband RF synthesizer evaluation module LMX8410LEVM I/Q demodulator evaluation module LMK5B33414EVM LMK5B33414 evaluation module for 14-output, three DPLL and APLL, network synchronizer with BAW VCO LMK5C33216EVM LMK5C33216 clock synchronizer DPLL 2 input 16 outputs evaluation module LMK05028EVM LMK05028 Network Clock Generator and Synchronizer Evaluation Module LMK05318BEVM Network synchronizer clock evaluation module CDCI6214EVM CDCI6214 Ultra-Low Power Clock Generator Evaluation Module CDCE6214-Q1EVM 4 differential and 1 LVCMOS outputs clock generator evaluation module LMK3H0102EVM LMK3H0102 evaluation module
Software
IDE, configuration, compiler or debugger
CODELOADER CodeLoader Software for device register programming
lock Download options
Simulation model

LMK03328 IBIS Model (Rev. B)

SNAM177B.ZIP (88 KB) - IBIS Model
Design tool

CLOCK-TREE-ARCHITECT — Clock tree architect programming software

Clock tree architect is a clock tree synthesis tool that streamlines your design process by generating clock tree solutions based on your system requirements. The tool pulls data from an extensive database of clocking products to generate a system-level multi-chip clocking solution.
Design tool

PLLATINUMSIM-SW PLLatinum Sim Tool

PLLATINUMSIM-SW is a simulation tool that allows users to create detailed designs and simulations of our PLLatinum™ integrated circuits, which include the LMX series of phase-locked loops (PLLs) and synthesizers.

Supported products & hardware

Supported products & hardware

Products
RF PLLs & synthesizers
LMX1204 12.8-GHz RF buffer, multiplier and divider with JESD204B/C SYSREF support and phase synchronization LMX1214 1:5 16GHz RF buffer and divider with auxiliary clock LMX1906-SP Radiation-hardened-assured (RHA) 1:4 15GHz buffer, multiplier and divider with SYSREF and FPGA clock LMX2430 3.0-GHz/0.8-GHz PLLatinum dual high frequency synthesizer for RF personal communications LMX2433 3.6-GHz/1.7-GHz PLLatinum dual high frequency synthesizer for RF personal communications LMX2434 5.0-GHz/2.5-GHz PLLatinum low power dual frequency synthesizer for RF personal communications LMX2470 2.6-GHz delta-sigma fractional-N PLL with 800-MHz integer-N PLL LMX2485 500-MHz to 3-GHz delta-sigma low power dual PLL for RF personal communications LMX2485E 50-MHz to 3-GHz delta-sigma low power dual PLL for RF personal communications LMX2485Q-Q1 500MHz to 3GHz automotive delta-sigma low power dual PLL LMX2486 1-GHz to 4.5-GHz delta-sigma low power dual PLL for RF personal communications LMX2487 1 to 6-GHz delta-sigma low power dual PLLatinum frequency synthesizer with 3.0-GHz integer PLL LMX2487E 3-GHz to 7.5-GHz delta-sigma low power dual PLL for RF personal communications LMX2491 6.4-GHz low noise fractional-N PLL with ramp/chirp generation LMX2492 500MHz to 14GHz wideband, low noise fractional-N PLL with ramp/chirp generation LMX2492-Q1 Automotive grade 500-MHz to 14-GHz wideband, low noise fractional-N PLL with ramp/chirp generation LMX2531 High performance frequency synthesizer system with integrated VCO LMX2541 Ultra-low noise PLLatinum frequency synthesizer with integrated VCO LMX2571 1.34-GHz, low-power, extreme-temperature RF synthesizer with frequency-shift keying (FSK) modulation LMX2571-EP Enhanced-product, 1.34-GHz, low-power, extreme-temperature RF synthesizer with FSK modulation LMX2572 6.4-GHz low-power wideband RF synthesizer LMX2572LP 2-GHz low power wideband RF synthesizer with FSK modulation LMX2581 3.76-GHz wideband frequency synthesizer with integrated VCO LMX2581E 3.8-GHz wideband frequency synthesizer with integrated VCO LMX2582 5.5-GHz high performance, wideband PLLatinum RF synthesizer LMX2592 9.8-GHz wideband frequency synthesizer with integrated VCO LMX2594 15-GHz wideband PLLatinum™ RF synthesizer with phase synchronization and JESD204B support LMX2595 20-GHz wideband RF synthesizer with phase synchronization & JESD204B support LMX2615-SP Space grade 40-MHz to 15-GHz wideband synthesizer with phase synchronization and JESD204B support LMX2694-EP Enhanced product 15-GHz RF synthesizer with phase synchronization TRF3765 300M-4800MHz Low Noise Integer-N/Fractional-N PLL with Integrated VCO and up to 8 Outputs
Clock jitter cleaners & synchronizers
LMK04208 Ultra low-noise clock jitter cleaner with 6 programmable outputs LMK04368-EP Enhanced product ultra-low-noise 3.2-GHz JESD204C jitter cleaner LMK04714-Q1 Automotive, ultra low-noise 3.2-GHz, JESD204B and JESD204C dual-loop clock jitter cleaner LMK04803 Low-noise clock jitter cleaner with dual cascaded PLLs and integrated 1.9-GHz VCO LMK04805 Low-noise clock jitter cleaner with dual cascaded PLLs and integrated 2.2-GHz VCO LMK04806 Low-noise clock jitter cleaner with dual cascaded PLLs and integrated 2.5-GHz VCO LMK04808 Low-noise clock jitter cleaner with dual loop PLLs and integrated 2.9-GHz VCO LMK04816 Three input low-noise clock jitter cleaner with dual loop PLLs LMK04821 Ultra low jitter synthesizer and jitter cleaner with JESD204B support LMK04826 Ultra low-noise JESD204B compliant clock jitter cleaner with integrated 1840 to1970-MHz VCO0 LMK04828 Ultra low-noise JESD204B compliant clock jitter cleaner with integrated 2370 to 2630-MHz VCO0. LMK04828-EP Ultra low-noise JESD204B compliant clock jitter cleaner with temperature range -55 to 105c LMK04832 Ultra-low-noise, 3.2-GHz, 15-output, JESD204B clock jitter cleaner with dual loop LMK04832-SEP Radiation-tolerant, 30-krad, ultra-low-noise, 3.2-GHz 15-output JESD204C clock jitter cleaner LMK04832-SP Radiation-hardened-assured (RHA), ultra-low-noise, 3.2-GHz, 15-output clock jitter cleaner LMK04906 Ultra low noise clock jitter cleaner/multiplier with 6 programmable outputs LMK05028 Low-jitter dual-channel network synchronizer clock LMK05318 Ultra-low jitter single channel network synchronizer clock with BAW LMK05318B Ultra-low jitter single channel network synchronizer clock with BAW LMK5B33216 16-output, three DPLL and APLL, network synchronizer with integrated 2.5-GHz bulk-acoustic-wave VCO LMK5B33414 14-output, three DPLL and APLL, network synchronizer with integrated 2.5-GHz bulk-acoustic-wave VCO LMK5C33216 Ultra-low jitter clock synchronizer with JESD204B for wireless communications with BAW LMK5C33216A Three DPLL, three APLL, two-input and 16-output network synchronizer with JESD204B/C and BAW VCO
Clock buffers
CDCDB2000 DB2000QL compliant 20-output clock buffer for PCIe® Gen 1 to Gen 5 CDCDB400 4-output clock buffer for PCIe® Gen 1 to Gen 6 CDCDB800 8-output clock buffer for PCIe® Gen 1 to Gen 6 CDCDB803 8-output clock buffer for PCIe® Gen 1 to Gen 6 with selectable SMBus addresses CDCLVC1102 Low jitter, 1:2 LVCMOS fan-out clock buffer CDCLVC1103 Low jitter, 1:3 LVCMOS fan-out clock buffer CDCLVC1104 Low jitter, 1:4 LVCMOS fan-out clock buffer CDCLVC1106 Low jitter, 1:6 LVCMOS fan-out clock buffer CDCLVC1108 Low jitter, 1:8 LVCMOS fan-out clock buffer CDCLVC1110 Low jitter, 1:10 LVCMOS fan-out clock buffer CDCLVC1112 Low jitter, 1:12 LVCMOS fan-out clock buffer CDCLVC1310 Universal input, 10-output low impedance LVCMOS buffer CDCLVD110 1-to-10 LVDS clock buffer up to 900-MHz with minimum skew for clock distribution CDCLVD110A 1-to-10 LVDS clock buffer up to 1100-MHz with minimum skew for clock distribution CDCLVD1204 Low jitter, 2-input selectable 1:4 universal-to-LVDS buffer CDCLVD1208 Low jitter, 2-input selectable 1:8 universal-to-LVDS buffer CDCLVD1212 Low jitter, 2-input selectable 1:12 universal-to-LVDS buffer CDCLVD1213 Low jitter, 1:4 universal-to-LVDS buffer with selectable output divider CDCLVD1216 Low jitter, 2-input selectable 1:16 universal-to-LVDS buffer CDCLVD2102 Low jitter, dual 1:2 universal-to-LVDS buffer CDCLVD2104 Low jitter, dual 1:4 universal-to-LVDS buffer CDCLVD2106 Low jitter, dual 1:6 universal-to-LVDS buffer CDCLVD2108 Low jitter, dual 1:8 universal-to-LVDS buffer CDCLVP110 1:10 LVPECL/HSTL to LVPECL clock driver CDCLVP1102 Low jitter 1:2 universal-to-LVPECL buffer CDCLVP111 1:10 LVPECL buffer with selectable input CDCLVP111-EP HiRel, 1:10 LVPECL buffer with selectable input CDCLVP111-SP 1:10 high speed clock buffer with selectable input clock driver CDCLVP1204 Low-jitter, two-input, selectable 1:4 universal-to-LVPECL buffer CDCLVP1208 Low jitter, 2-input selectable 1:8 universal-to-LVPECL buffer CDCLVP1212 Low jitter, 2-input selectable 1:12 universal-to-LVPECL buffer CDCLVP1216 Low jitter, 2-input selectable 1:16 universal-to-LVPECL buffer CDCLVP2102 Low jitter, dual 1:2 universal-to-LVPECL buffer CDCLVP2104 Low jitter, dual 1:4 universal-to-LVPECL buffer CDCLVP2106 Low jitter, dual 1:6 universal-to-LVPECL buffer CDCLVP2108 Low jitter, dual 1:8 universal-to-LVPECL buffer CDCLVP215 Dual 1:5 high speed LVPECL fan out buffer LMK00301 3-GHz, 10-output differential fanout buffer / level translator LMK00304 3.1-GHz differential clock buffer/level translator with 4 configurable outputs LMK00306 3.1-GHz differential clock buffer/level translator with 6 configurable outputs LMK00308 3.1-GHz differential clock buffer/level translator with 8 configurable outputs LMK00334 4-output PCIe® Gen1/Gen2/Gen3/Gen4/Gen5 clock buffer and level translator LMK00334-Q1 Automotive 4-output PCIe® Gen1/Gen2/Gen3/Gen4/Gen5 clock buffer and level translator LMK00338 8-output PCIe® Gen1/Gen2/Gen3/Gen4/Gen5 clock buffer and level translator LMK1C1102 2-channel output LVCMOS 1.8-V buffer LMK1C1103 3-channel output LVCMOS 1.8-V buffer LMK1C1104 4-channel output LVCMOS 1.8-V buffer LMK1C1106 6-channel output LVCMOS 1.8-V buffer LMK1C1108 8-channel output LVCMOS 1.8-V buffer LMK1D1204 4-channel output LVDS 1.8-V buffer LMK1D1204P 4-channel output LVDS 1.8-V, 2.5-V, and 3.3-V buffer with pin control LMK1D1208 8-channel output LVDS 1.8-V, 2.5-V, and 3.3-V buffer LMK1D1208I 8-channel output, 1.8-V, 2.5-V, and 3.3-V LVDS buffer with I²C LMK1D1208P 8-channel output 1.8-V, 2.5-V, and 3.3-V LVDS buffer with pin control LMK1D1212 12-channel output 1.8-V, 2.5-V, and 3.3-V LVDS buffer LMK1D1216 16-channel output 1.8-V, 2.5-V, and 3.3-V LVDS buffer LMK1D2102 Dual bank 2-channel output LVDS 1.8-V, 2.5-V, and 3.3-V buffer LMK1D2104 Dual bank 4-channel output 1.8-V, 2.5-V, and 3.3-V LVDS buffer LMK1D2106 Dual bank 6-channel output 1.8-V, 2.5-V, and 3.3-V LVDS buffer LMK1D2108 Dual bank 8-channel output 1.8-V, 2.5-V, and 3.3-V LVDS buffer
Clock generators
LMK03318 Ultra-low jitter clock generator family with single PLL LMK03328 Ultra-low jitter clock generator family with two independent PLLs LMK03806 Ultra-low jitter clock generator with 14 outputs
IQ demodulators
LMX8410L High-Performance Mixer With Integrated Synthesizer
Hardware development
Evaluation board
LMK04832EVM LMK04832 JESD204B Clock Jitter Cleaner/Clock Generator/Distribution Evaluation Module LMX2571EPEVM LMX2571-EP evaluation module for 1.34-GHz, low-power, extreme-temperature RF synthesizer LMX2594PSEVM LMX2594 evaluation module for 15-GHz RF synthesizer with multiple-device phase synchronization XMICR-3P-LMX2492 LMX2492 X-MWblock evaluation modules XMICR-3P-LMX2572 LMX2572 X-MWblock evaluation modules XMICR-3P-LMX2592 LMX2592 X-MWblock evaluation modules XMICR-3P-LMX2594 LMX2594 X-MWblock evaluation modules XMICR-3P-LMX2595 LMX2595 X-MWblock evaluation modules
Software
Application software & framework
PLLATINUMSIM-SW Texas Instruments PLLatinum Simulator Tool TICSPRO-SW Texas Instruments Clocks and Synthesizers (TICS) Pro Software
IDE, configuration, compiler or debugger
CODELOADER CodeLoader Software for device register programming LMX9830-SW LMX9830 Application Notes, Software, and Tools LMX9838-SW LMX9838 Application Notes, Software, and Tools
Download options
Simulation tool

PSPICE-FOR-TI — PSpice® for TI design and simulation tool

PSpice® for TI is a design and simulation environment that helps evaluate functionality of analog circuits. This full-featured, design and simulation suite uses an analog analysis engine from Cadence®. Available at no cost, PSpice for TI includes one of the largest model libraries in the (...)
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