NCN9252MUGEVB High-Speed USB 2.0 (480 Mbps) DP3T Switch for USB/UART/Data Multiplexing Evaluation Board User's Manual http://onsemi.com EVAL BOARD USER’S MANUAL OVERVIEW < 30 pF (max) across the supply voltage range. This performance makes it ideal for both USB full−speed and high*speed applications that require both low RON and CON for effective signal transmission. The NCN9252 is capable of accepting control input signals down to 1.4 V, over a range of VCC supply voltages with minimal leakage current. The NCN9252 is offered in a Pb−Free, 12 pin, 1.7 x 2.0 x 0.5 mm, UQFN package. The NCN9252 is a DP3T switch for combined UART and USB 2.0 high−speed data applications. It allows portable systems to use a single external port to transmit and receive signals to and from three separate locations within the portable system. It is comprised of two switches, each with a single common I/O that alternates between three terminals. They are operated together to allow three data sources, such as a USB or UART transceiver, to pass differential data through a shared USB connector port. The NCN9252 features low RON− 4 W (max) at 4.2 V VCC, 5 W (typ) at a 3.3 V VCC. It also features low CON, Figure 1. Board Photo © Semiconductor Components Industries, LLC, 2012 April, 2012 − Rev. 3 1 Publication Order Number: EVBUM2103/D NCN9252MUGEVB 1S1 1S2 COM1 1S3 2S1 COM2 2S2 2S3 IN1 Control Logic IN2 Figure 2. Functional Block Diagram Table 1. FUNCTION TABLE IN1 [0] IN2 [1] COM1 Closed to: COM2 Closed to: 0 0 No Connect No Connect 1 0 1S1 2S1 0 1 1S2 2S2 1 1 1S3 2S3 Get Started... Procedure 1. Set the power supply to 3.3 V. Connect the power supply from VCC to GND using the banana cables. The supply current should be less than 1 mA. 2. Connect the USB drive to the common I/O USB port, J1. 3. Connect the USB cable from the desired output port to the computer 4. Select the output port by moving the jumpers to the appropriate logic level for IN1 and IN2, as shown in the function table in Table 1. Equipment needed • Power Supply • 2 Banana Cables • Computer • USB Flash Drive • USB Cable http://onsemi.com 2 NCN9252MUGEVB BOARD SCHEMATIC Figure 3. Board Schematic Table 2. BILL OF MATERIALS Designator Qty Description Value Tolerance Footprint Manufacturer Manufacturer Part Number Substitution Allowed Lead Free C1 1 Ceramic Capacitor SMD 1mF 10% 805 AVX Corporation GRM155R60J105 Yes Yes C2 1 Ceramic Capacitor SMD 0.1mF 10% 603 AVX Corporation 0603YC104KAT2A Yes Yes J1 1 USB TypeA connector surface mount n/a n/a USB TypeA Mill−Max 896−43−004−00−000000 Yes Yes J2, J3 2 3−pin header n/a n/a Header3 Tyco Electronics 5−826629−0 Yes Yes J2, J4 2 2−pin jumper n/a n/a n/a Tyco Electronics 4−881545−2 Yes Yes J4, J5, J6 3 USB TypeB Connector through−hole n/a n/a USB TypeB Adam Tech USB−B−S−RA Yes Yes J7, J8 2 Banana Connector n/a n/a 7mm Hole Johnson Components 111−2223−001 Yes Yes J9, J10, J11, J12 4 Standoff nut n/a n/a n/a Keystone Electronics 1903C Yes Yes J9, J10, J11, J13 4 Standoff screw n/a n/a n/a Keystone Electronics 4814K−ND Yes Yes TP1, TP3, TP4, TP5, TP6, TP7, TP8, TP9, TP10, TP11, TP12 11 Test Point PC Multi Purpose n/a n/a 1mm hole Keystone Electronics 5000 Yes Yes TP2 1 PCB shorting link n/a n/a GND_Strap Harwin D3082−46 Yes Yes U1 1 NCN9252 n/a n/a UQFN12 ON Semiconductor NCN9252MUTAG No Yes http://onsemi.com 3 NCN9252MUGEVB PCB LAYOUT GUIDELINES Electrical Layout Considerations • The ground plane of the PCB will be used to determine Implementing a high speed USB device requires paying attention on USB lines and traces to preserve signal integrity. The demonstration board serves as a layout example and can support the design engineers to preserve high speed performances. Electrical layout guidelines are: • The bypass capacitor must be placed as close as possible to the VCC input pin for noise immunity. • The characteristic impedance of each High Speed USB segment must be 45 W. the characteristic impedance of each line. • All corresponding D+ / D− line segment pairs must be • • the same length. The use of vias to route these signals should be avoided when possible. The use of turns or bends to route these signal should be avoided when possible. EVALUATION BOARD PCB LAYOUT Figure 4. Evaluation Board Layout. Top Layer: Magenta. Bottom Layer: Cyan. http://onsemi.com 4 NCN9252MUGEVB ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. 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