Cypress CY7C68321C, CY7C68320C Quad Flat Package No Leads QFN Package Design Notes, PCB Material

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Quad Flat Package No Leads (QFN) Package Design Notes

CY7C68300C/CY7C68301C

CY7C68320C/CY7C68321C

Quad Flat Package No Leads (QFN) Package Design Notes

Electrical contact of the part to the Printed Circuit Board (PCB) is made by soldering the leads on the bottom surface of the package to the PCB. Hence, special attention is required to the heat transfer area below the package to provide a good thermal bond to the circuit board. A Copper (Cu) fill must be designed into the PCB as a thermal pad under the package. Heat is transferred from the AT2LP through the device’s metal paddle on the bottom side of the package. Heat from here is conducted to the PCB at the thermal pad. It is then conducted from the thermal pad to the PCB inner ground plane by a 5 x 5 array of vias. A via is a plated through-hole in the PCB with a finished diameter of 13 mil. The QFN’s metal die paddle must be soldered to the PCB’s thermal pad. Solder mask is placed on the board top side over each via to resist solder flow into

the via. The mask on the top side also minimizes outgassing during the solder reflow process.

For further information on this package design, refer to the application note Surface Mount Assembly of AMKOR’s MicroLeadFrame (MLF) Technology. The application note provides detailed information on board mounting guidelines, soldering flow, rework process, etc.

Figure 15 displays a cross-sectional area underneath the package. The cross section is of only one via. The solder paste template needs to be designed to allow at least 50% solder coverage. The thickness of the solder paste template must be 5 mil. It is recommended that ’No Clean,’ type 3 solder paste is used for mounting the part. Nitrogen purge is recommended during reflow.

Figure 15. Cross-Section of the Area Under the QFN Package

PCB MaterialOther Design Considerations 0.017” diaManual backgroundManual backgroundManual background

Solder Mask

Cu Fill

Cu Fill

PCB Material

Via hole for thermally connecting the QFN to the circuit board ground plane.

0.013” dia

PCB Material

This figure only shows the top three layers of the circuit board: Top Solder, PCB Dielectric, and the Ground Plane

Figure 16 is a plot of solder mask pattern and Figure 17 displays an X-Ray image of assembly (darker areas indicate solder).

Figure 16. Plot of the Solder Mask (White Area)

Figure 17. X-Ray Image of the Assembly

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Other Design Considerations

Certain design considerations must be followed to ensure proper operation of the CY7C68300C/CY7C68301C. The following items must be taken into account when designing a USB device with the CY7C68300C/CY7C68301C.

Proper Power Up Sequence

Power must be applied to the CY7C68300C/CY7C68301C before, or at the same time as the ATA/ATAPI device. If power is supplied to the drive first, the CY7C68300C/CY7C68301C startup in an undefined state. Designs that utilize separate power supplies for the CY7C68300C/CY7C68301C and the ATA/ATAPI device are not recommended.

Document 001-05809 Rev. *A

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Contents Features Block DiagramCY7C68300C/CY7C68301C CY7C68320C/CY7C68321C EZ-USB AT2LP USB 2.0 to ATA/ATAPI BridgeApplications CY7C68300A CompatibilityIntroduction CY4615C EZ-USB AT2LP Reference Design Kit USB Specification versionEZ-USB AT2LP CY7C68300CCY7C68301C 56-pin SSOPEZ-USB AT2LP CY7C68300C CY7C68301C 56-pin QFN ENABLERESET# DD13EZ-USB AT2LP CY7C68320CCY7C68321C 56-pin SSOPEZ-USB AT2LP CY7C68320C CY7C68321C 56-pin QFN ARESET#GPIO2 DD15CY7C68320A 100-pin TQFPCY7C68321A USB D+ signal See “DPLUS, DMINUS” on page USB D-signal See “DPLUS, DMINUS” on pagepage PU 10KCY7C68300C/CY7C68301C CY7C68320C/CY7C68321CChip reset See “RESET#” on page VBUS detection See “VBUSATAENABLE” on“ATAPUEN” on page DPLUS, DMINUSSCL, SDA XTALIN, XTALOUTSYSIRQ USB High-SpeedGPIO Pins ATA Interface PinsDRVPWRVLD LOWPWR#VBUSATAENABLE RESET#ATAPUEN PWR500#Functional Overview HID Functions for Button ControlsATA Command Block ATACB Table 6. ATACB Field Descriptions ByteField Name Field Description5-12 Operational Mode Selection Flow Operating ModesFigure 10. Operational Mode Selection Flow Bulk-Only Transport Specification . There is a vendor-specific Table 7. Command Block WrapperFused Memory Data Normal Mass Storage ModeMfgCB EEPROM Organization Figure 11. Snapshot of ‘AT2LP Blaster’ UtilityEnable a delay of up to 120 ms at each read of the DRQ bit where the device data length does not match the host data“Functional Overview” on page 15 for more detail on how length. This allows the CY7C68300C/CY7C68301C to workDetermines if the AT2LP is to do an SRST reset during drive returned on bits 2, 1, and 0 of EP1IN. This bit must be set to CY7C68300C/CY7C68301C CY7C68320C/CY7C68321C Configuration does not exist. The USB Mass Storage Class Bulk-OnlyUSB Bulk Out Endpoint Interface DescriptorUSB Bulk In Endpoint Terminator Number of the channel, must be a zero based value that is Page 29 ofDescriptor-Index 0 LANGID CY7C68300C/CY7C68301C CY7C68320C/CY7C68321C Descriptor-Serial Number unique serialLOADCONFIGDATA Table 12.EEPROM-related Vendor-specific Commands READCONFIGDATALabel bmRequestTypeAbsolute Maximum Ratings DC CharacteristicsOperating Conditions AC Electrical Characteristics Ordering InformationATA Timing Characteristics USB Transceiver CharacteristicsPackage Diagrams Figure 12. 100-Pin Thin Plastic Quad Flatpack 14 x 20 x 1.4 mm A101Package Diagrams continued Figure 13. 56-lead Shrunk Small Outline PackageFigure 14. 56-Lead QFN 8 x 8 mm LF56A General PCB Layout Recommendations For USB Mass Storage DesignsPage 39 of Other Design Considerations Quad Flat Package No Leads QFN Package Design NotesPCB Material IDE Removable Media Devices Disclaimers, Trademarks, and CopyrightsDevices With Small Buffers Document History Paged Issue DateDocument Number ECN NO
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