Datasheets
MPC93R52AC by:
Integrated Device Technology Inc
Freescale Semiconductor
Integrated Device Technology Inc
Renesas Electronics Corporation
Not Found

PLL Based Clock Driver, 93R Series, 11 True Output(s), 0 Inverted Output(s), PQFP32, LEAD FREE, LQFP-32

Part Details for MPC93R52AC by Integrated Device Technology Inc

Results Overview of MPC93R52AC by Integrated Device Technology Inc

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Applications Industrial Automation Energy and Power Systems Transportation and Logistics Renewable Energy Automotive Robotics and Drones

MPC93R52AC Information

MPC93R52AC by Integrated Device Technology Inc 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.

Available Datasheets

Part # Manufacturer Description Datasheet
MPC93R52ACR2 Renesas Electronics Corporation 1:11 LVCMOS Zero Delay Buffer

Part Details for MPC93R52AC

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MPC93R52AC Part Data Attributes

MPC93R52AC Integrated Device Technology Inc
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MPC93R52AC Integrated Device Technology Inc PLL Based Clock Driver, 93R Series, 11 True Output(s), 0 Inverted Output(s), PQFP32, LEAD FREE, LQFP-32
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Pbfree Code Yes
Rohs Code Yes
Part Life Cycle Code Obsolete
Ihs Manufacturer INTEGRATED DEVICE TECHNOLOGY INC
Part Package Code QFP
Package Description LQFP-32
Pin Count 32
Reach Compliance Code compliant
HTS Code 8542.39.00.01
JESD-609 Code e3
Moisture Sensitivity Level 3
Terminal Finish Matte Tin (Sn) - annealed

MPC93R52AC Related Parts

MPC93R52AC Frequently Asked Questions (FAQ)

  • A good PCB layout for the MPC93R52AC involves keeping the input and output traces short and away from each other, using a solid ground plane, and placing decoupling capacitors close to the device. It's also recommended to use a 4-layer PCB with a dedicated power plane and a dedicated ground plane.

  • To ensure reliable operation of the MPC93R52AC in high-temperature environments, it's essential to follow proper thermal management practices, such as providing adequate heat sinking, using a thermally conductive material for the PCB, and ensuring good airflow around the device. Additionally, the device should be operated within its specified temperature range.

  • Potential sources of EMI in the MPC93R52AC include the clock signal, output switching, and power supply noise. These can be mitigated by using a low-jitter clock source, minimizing output switching times, using a low-noise power supply, and implementing proper EMI shielding and filtering techniques.

  • To troubleshoot issues with the MPC93R52AC, start by verifying that the device is properly powered and configured. Check the input and output signals using an oscilloscope or logic analyzer, and ensure that the device is operating within its specified parameters. If the issue persists, consult the datasheet and application notes, and consider contacting the manufacturer's technical support team.

  • Operating the MPC93R52AC at frequencies above the recommended maximum frequency can result in reduced performance, increased power consumption, and potentially even device damage. It's essential to follow the recommended frequency specifications to ensure reliable operation and prevent damage to the device.