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NXP Semiconductors OM13260 Installation Manual Download Page 70

NXP Semiconductors

 

UMxxxxx 

Install Guide

 

All information provided in this document is subject to legal disclaimers. 

Preliminary 1 

— September 6, 2013

 

© NXP B.V. 2013. All rights reserved. 

70 of 70

 

 

 

6.  Legal information

 

 

6.1   Definitions

 

Preliminary 

— 

The document is a Preliminary version only. The 

content is still under internal review and subject to formal approval, 
which may result in modifications or additions. NXP 
Semiconductors does not give any representations or warranties 
as to the accuracy or completeness of information included herein 
and shall have no liability for the consequences of use of such 
information. 

 

6.2   Disclaimers

 

Limited warranty and liability 

— 

Information in this document is 

believed to be accurate and reliable. However, NXP 
Semiconductors does not give any representations or warranties, 
expressed or implied, as to the accuracy or completeness of such 
information and shall have no liability for the consequences of use 
of such information. 

In no event shall NXP Semiconductors be liable for any indirect, 
incidental, punitive, special or consequential damages (including - 
without limitation - lost profits, lost savings, business interruption, 
costs related to the removal or replacement of any products or 
rework charges) whether or not such damages are based on tort 
(including negligence), warranty, breach of contract or any other 
legal theory. 

Notwithstanding any damages that customer might incur for any 
reason whatsoever, NXP Semiconductors

’ aggregate and 

cumulative liability towards customer for the products described 
herein shall be limited in accordance with the Terms and conditions 
of commercial sale of NXP Semiconductors. 

Right to make changes 

— 

NXP Semiconductors reserves the 

right to make changes to information published in this document, 
including without limitation specifications and product descriptions, 
at any time and without 
notice. This document supersedes and replaces all information 
supplied prior to the publication hereof. 

Suitability for use 

— 

NXP Semiconductors products are not 

designed, authorized or warranted to be suitable for use in life 
support, life-critical or safety-critical systems or equipment, nor in 
applications where failure or malfunction of an NXP 
Semiconductors product can reasonably be expected to result in 
personal injury, death or severe property or environmental 
damage. NXP Semiconductors accepts no liability for inclusion 
and/or use of NXP Semiconductors products in such equipment or 
applications and therefore such inclusion and/or use is at the 
customer

’s own risk. 

Applications 

— 

Applications that are described herein for any of 

these products are for illustrative purposes only. NXP 
Semiconductors makes no representation or warranty that such 
applications will be suitable for the specified use without further 
testing or modification. 

Customers are responsible for the design and operation of their 
applications and products using NXP Semiconductors products, 
and NXP Semiconductors accepts no liability for any assistance 
with applications or customer product design. It is custom

er’s sole 

responsibility to determine whether the NXP Semiconductors 
product is suitable and fit for the 

 

customer

’s applications and products planned, as well as for the 

planned application and use of customer

’s third party customer(s). 

Customers should provide appropriate design and operating 
safeguards to minimize the risks associated with their applications 
and products. 

NXP Semiconductors does not accept any liability related to any 
default, damage, costs or problem which is based on any weakness 
or default in the customer

’s applications or products, or the 

application or use by customer

’s third party customer(s). Customer is 

responsible for doing all necessary testing for the custom

er’s 

applications and products using NXP Semiconductors products in 
order to avoid a default of the applications and the products or of the 
application or use by customer

’s third party customer(s). NXP does 

not accept any liability in this respect. 

Export  control 

— 

This  document  as  well  as  the  item(s)  described 

herein  may  be  subject  to  export  control  regulations.  Export  might 
require a prior authorization from competent authorities. 

Evaluation products 

— 

This product is provided on an 

“as is” and 

“with all faults” basis for evaluation purposes only. NXP 
Semiconductors, its affiliates and their suppliers expressly disclaim all 
warranties, whether express, 
implied or statutory, including but not limited to the implied warranties 
of non- infringement, merchantability and fitness for a particular 
purpose. The entire risk as to the quality, or arising out of the use or 
performance, of this product remains with customer. 

In no event shall NXP Semiconductors, its affiliates or their suppliers 
be liable to customer for any special, indirect, consequential, punitive 
or incidental damages (including without limitation damages for loss 
of business, business interruption, loss of use, loss of data or 
information, and the like) arising out the use of or inability to use the 
product, whether or not 
based on tort (including negligence), strict liability, breach of contract, 
breach of warranty or any other theory, even if advised of the 
possibility of such damages. 

Notwithstanding any damages that customer might incur for any 
reason whatsoever (including without limitation, all damages 
referenced above and all direct or general damages), the entire 
liability of NXP Semiconductors, its affiliates and their suppliers and 
custom

er’s exclusive remedy for all of the foregoing shall be limited to 

actual damages incurred by customer based on reasonable reliance 
up to the greater of the amount actually paid by customer for the 
product or five dollars (US$5.00). The foregoing limitations, 
exclusions and disclaimers shall apply to the maximum extent 
permitted by applicable law, even if any remedy fails of its essential 
purpose. 

Translations 

— A non-English (translated) version of a document is 

for reference only. The English version shall prevail in case of any 
discrepancy between the translated and English versions. 

 

6.3   Trademarks

 

Notice: All referenced brands, product names, service names and 
trademarks are property of their respective owners. 

Summary of Contents for OM13260

Page 1: ...stallation Guide Installation Guide for OM13320 Preliminary 1 9 6 2013 Installation Guide Document information Info Content Keywords Abstract Installation Guide for the Fm Development Board OM13260 Ki...

Page 2: ...mers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 2 of 70 Revision history Rev Date Description Preliminary 1 Sept 5 2013 First Draft of document Contact information For more inform...

Page 3: ...on Bus1 and Bus2 LED driver with 16 constant current outputs PCA9955 with four RGB and four White LEDs on Bus1 Accessory Sockets Connectors for up to four daughter cards each providing power Bus1 and...

Page 4: ...es two different firmware programs see table 3 1 Table 3 1 Supplied Firmware FM DevelopmentBoard V03_00 bin 19kb Standalone_trade_show_FM _DEMO bin 7kb The Trade Show mode activates the LEDs on the Fm...

Page 5: ...be attached to each other either by plug connection or by stacking the GPIO PCB assemblies above the Fm Development Board OM13260 using the supplied ribbon cables and hardware 3 3 Supplied Printed Cir...

Page 6: ...en using GPIO Daughter Cards not supplied in the kit require the GPIO Target Board OM13303 Each one has eight channels of LED indicator and pushbutton switches for user input See figure 3 4 Fig 3 4 OM...

Page 7: ...r with nine pins To use these with the Fm Development Kit requires the Bridge Board OM13399 supplied in the kit See figure 3 6 Fig 3 6 OM13399 Bridge Board PCB Assembly 3 3 5 Daughter Cards not suppli...

Page 8: ...aughter Card is not available for a specific new device it can still be added to the Fm Development Board OM13260 using the EVM Evaluation Module OM13490 See figure 3 8 and figure 3 9 Sample devices a...

Page 9: ...7 4 Install the NXP GUI Software on the computer to be used with the kit see section 4 8 There are two distinct operating modes each requires different firmware on the Fm Development Board OM13260 It...

Page 10: ...rved 10 of 70 Table 4 1 OM13260 Jumpers Jumper Label Function First Time JP1 XPRESSO POWER Close JP2 HDD Open JP3 CONNECT Close JP4 RST Open JP5 PCA9955 Address GND JP6 ISP Open JP7 SPI SEL 1 JP10 PCA...

Page 11: ...g up the intended operation of the Fm Development Board OM13260 Port E CN12 should be left open or linked with a jumper wire or for the attachment of a Bus Buffer Board The PCA9617A Bus Buffer Demo Bo...

Page 12: ...oard now install the NXP USB Driver 4 6 NXP USB Driver Installation The Win7 64 OS Operating System will attempt to auto install a driver when the Fm Development Board is attached by USB for the first...

Page 13: ...x Install Guide All information provided in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 13 of 70 Fig 4 5 Windows Device Manager Fig 4...

Page 14: ...tion provided in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 14 of 70 Fig 4 7 Windows dialog box Fig 4 8 Windows dialog box C Program...

Page 15: ...ide All information provided in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 15 of 70 Fig 4 9 Windows dialog box Fig 4 10 Windows dialo...

Page 16: ...ent Board OM13260 MCU 4 7 1 Trade Show Mode A popular use of the Fm Development Board OM13260 kit is for publicity and promotion of the I2C Bus products from NXP A version of the firmware provides Bli...

Page 17: ...19 should it be necessary to recover from a bricked board not very likely as the MCU boot loader code is in protected memory 1 Connect a USB cable from the PC USB port to CN5 Note Two green LEDs are o...

Page 18: ...ded in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 18 of 70 Fig 4 13 Fm Development Board MCU factory supplied firmware Win7 OS Fig 4...

Page 19: ...device on the board The two busses may be linked by either a Bus Buffer Board OM13398 supplied in the kit or a wire jumper at the Port E connector CN12 The signals from both busses are available simul...

Page 20: ...has priority A shunt Zener diode 6 2V protects the board from reverse polarity and over voltage at the DC Power connector CN6 To aid in understanding digital signal levels on the board two logic probe...

Page 21: ...Interface Bus1 Bus2 and support circuits 5 2 1 Power Supply The Fm Development Board OM13260 operates from DC either from the USB Host connector CN5 or an optional external AC DC Power Adapter not sup...

Page 22: ...Semiconductors UMxxxxx Install Guide All information provided in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 22 of 70 Fig 5 2 Power Su...

Page 23: ...igure 5 4 USB data lines are terminated by resistors R27 and R28 and protected by an ESD network IC7 To signal to the host that the USB connection is required the USB signal DP is pulled to 3 3V via a...

Page 24: ...2C bus 5 3 1 Bus 1 Master MCU LPC1343 Microcontroller MCU LPC1343 IC5 serves as the Bus 1 Master and the USB Bridge Firmware installed on the Fm Development Board OM13260 is stored in non volatile mem...

Page 25: ...B V 2013 All rights reserved 25 of 70 Fig 5 6 MCU SWD Interface Section MCU Port0 and Port1 provide most of the signals used by the Fm Development Board OM13260 see figures 5 7 and 5 8 I2C Bus1 is co...

Page 26: ...B V 2013 All rights reserved 26 of 70 Fig 5 8 IC5 MCU Port0 Fig 5 9 IC5 MCU Port1 Oscillator and Power Supply The HVQN32 package has a thermal pad ground connection and operates from the main 3 3V sup...

Page 27: ...The Bus1 is pulled up to either the 3 3V or 5V supplies via JP13 Three different value pull up resistors are provided by jumper selection JP11 and JP12 The values of the pull up resistors are shown i...

Page 28: ...nstant current outputs and is directly connected to the LEDs without customary series resistors The LEDs are powered directly from the 5V supply thus avoiding further power dissipation in the 3 3V lin...

Page 29: ...ture has fallen When powered from the USB port CN5 the USB Host is typically limited to 500mA and it will shut down before the LEDs reach maximum current Operation from an external DC power supply con...

Page 30: ...ht input output channels at CN10 Jumper JP10 sets the device address to one of four options depending whether the A0 pin is connected to GND VCC SCL or SDA Bus2 has a similar arrangement for a second...

Page 31: ...mple 3 3V for one I2C bus 5V for the other I2C bus 5 4 1 Bus 2 Master LPC Xpresso MCU LPC1343 The LPC Xpresso Module contains an NXP LPC1343 MCU similar to the one on Bus 1 and support circuits called...

Page 32: ...eliminary 1 September 6 2013 NXP B V 2013 All rights reserved 32 of 70 I2C Bus2 is connected to the MCU Port0 via RC edge rate control networks that provide bus fall time control SCL2 R45 and C23 SDA1...

Page 33: ...r PCA9665 A second Bus Master is connected to Bus2 using a dedicated Bus Controller device PCA9665 Fm parallel bus to I2C bus controller IC4 The parallel port side is connected to the LPC Xpresso modu...

Page 34: ...5 20 Bus2 Master PCA9665 Section 5 4 3 Bus 2 Pull Up Resistors The Bus2 is pulled up to either the 3 3V or 5V supplies via JP23 Three different value pull up resistors are provided by jumper selectio...

Page 35: ...l Guide All information provided in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 35 of 70 Fig 5 21 Bus2 Pull Ups and Bus Voltage Select...

Page 36: ...t is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 36 of 70 Table 5 2 Bus Pull Up Resistors Strength Position Value Ohms Bus 1 SCL Bus 1 SDA Bus 2 SCL Bu...

Page 37: ...figure 5 23 Port B Port D are identical and effectively in parallel Fig 5 23 Port A Fig 5 24 Daughter Card Connectors Port A and Port B shown 5 6 Port E The two independent I2C Buses Bus1 and Bus2 ca...

Page 38: ...resistors of low value will overload the I2C drivers and effectively stop the bus from operating 5 6 1 Linking both Busses together with a jumper Fig 5 25 Port E with wire jumper 5 6 2 Linking both Bu...

Page 39: ...nformation provided in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 39 of 70 Fig 5 27 Bus1 and Bus2 Tester connectors Fig 5 28 Bus1 Tes...

Page 40: ...compliant using IC2 a voltage level translator See figure 5 30 This is provided for connection to I2C Bridge devices that require Serial Communications To save space on the PCB a small mini DIN conne...

Page 41: ...ction 5 9 SPI Ports Both the Bus1 Master MCU and the Bus2 Master LPC Xpresso Module support SPI communications The Bus1 MCU has one SPI port SPI2 CN16 and the LPC Xpresso has two SPI ports SPI0 and SP...

Page 42: ...be used as a simple Logic Probe To prevent circuit loading the LEDs are buffered by FETs as shown in figure 5 36 Green LED D6 is driven by FET Q2 when CN11 1 is at or near ground When CN11 1 is open o...

Page 43: ...information provided in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 43 of 70 Fig 5 36 Logic Probe circuit Fig 5 37 Logic Probe section...

Page 44: ...vices on the board and also the Port A Port E Daughter Card connectors These are also connected to the Master MCU IC5 on Bus 1 the Master Bus Controller IC4 and the LPC Xpresso module See figure 5 38...

Page 45: ...on beyond the intended scope of the Fm Development Board OM13260 For example using different value pull up resistors to those supplied or other circuit experiments The Prototype area is available and...

Page 46: ...it uses a one wire protocol it belongs to the NXP I2C Product portfolio Note The PCA9901 will be made obsolete and will not be present on future versions of the Fm Development Board OM13260 Refer to t...

Page 47: ...e supply voltage These values correspond to the I2C logic threshold voltages for the I2C specification When a push button is pressed a logic zero is applied the channel which can be read by the GPIO d...

Page 48: ...the comparator IC01A switches to near ground This turns on the green LED D01 Resistor R04 applies positive feedback hysteresis about 150mV to the comparator shifting the trip point to a slightly lower...

Page 49: ...information provided in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 49 of 70 Fig 6 3 Window Comparator Channel0 shown Fig 6 4 Input r...

Page 50: ...ach channel has a push switch S01 through S71 that connects the appropriate IO pin to ground when pressed Series resistors R01 through R71 limit the current in the event that the IO pin is being drive...

Page 51: ...nd VH from the Bias Circuit A resistor divider chain R01 R02 R03 and R04 divides the supply voltage to produce one third VL one half VC and two thirds VH Each value is buffered by an op amp sections o...

Page 52: ...2 of 70 Fig 6 7 Bias Circuit 6 2 4 Connectors The GPIO Target Board OM13303 is intended to be connected to the Fm Development Board OM13260 or other GPIO Daughter Cards via a ten pin ribbon cable Ther...

Page 53: ...information provided in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 53 of 70 Fig 6 8 Connectors Fig 6 9 Ribbon cables attached to the...

Page 54: ...Guide All information provided in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 54 of 70 Fig 6 10 Ribbon cables attached to the topside...

Page 55: ...rd OM13398 The Bus Buffer Board OM13398 supplied in the kit provides a method to link both the I2C Busses on the Fm Development Board OM13260 by attachment to Port E in place of the wire jumper used e...

Page 56: ...ent Jumpers on the Bus Buffer Board OM13398 select the voltage source of each of the two device power supplies To demonstrate the voltage level translator ability the link between the two Bus Buffers...

Page 57: ...P3 for SDA and the low voltage or A Side of the second PCA9617A IC3 Loading capacitors C31 for SCL and C51 SDA can be placed on the low voltage section of the bus To accommodate two different footprin...

Page 58: ...ull up resistors on this section of Bus1 are on the Fm Development Board OM13260 Fig 7 5 Bus2 Bus Buffer 7 2 3 Supply Select Jumpers The B Side high voltage side of the voltage level translator of eac...

Page 59: ...Supply Select Jumpers 7 2 4 Variable Voltage Regulator The low voltage bus bias is generated by an LDO Low Drop Out voltage regulator IC5 The output voltage is set by resistor divider R3 R4 and R5 an...

Page 60: ...e 7 7 and figure 7 8 The signals are arrange to be symmetrical so that the Bus Buffer Board OM13398 can be rotated 180degrees causing the signals from the Fm Development Board OM1326 to flow in the op...

Page 61: ...s UMxxxxx Install Guide All information provided in this document is subject to legal disclaimers Preliminary 1 September 6 2013 NXP B V 2013 All rights reserved 61 of 70 Fig 7 8 Fm Development Board...

Page 62: ...M13399 The Bridge Board OM13399 supplied in the kit provides attachment of old style with a 9 pin in line non polarized connector NXP designed I2C demo boards to the Fm Development Board OM13260 The B...

Page 63: ...t connector had only one I2C Bus with SCL and SDA signals The Fm Development Board Daughter Card ports have two I2C Buses Bus1 and Bus2 signals One or other I2C Bus can be selected by jumpers The powe...

Page 64: ...red by a third party tool see section 8 The Tester socket provides 5V and the Fm Development Board OM13260 provides both 3 3V or 5V Jumper JP1 selects the source of the 5V power JP2 selects either 3 3...

Page 65: ...2C signals and available 5V power are connected Note The Tester s bus signals are connected to the two 9 position connectors and depending upon the position of JP2 and JP3 to the Fm Development Board...

Page 66: ...SDA there are weak pull ups R3 R4 These may be replaced with lower value resistors or removed as needed 8 3 Example using PCA9632 OM13269 Fig 8 6 Bridge Board OM13399 used to attach a PCA9632 OM13269...

Page 67: ...easily achieved with third party development tools from Total Phase http www totalphase com See figure 9 1 and figure 9 2 There are two tools called Aardvark and Beagle that direct connect to the Fm...

Page 68: ...ave See figure 9 3 Fig 9 3 Aardvark I2C SPI Control Center The Aardvark operates with supplied software called Control Center It can be configured as either an I2C Master or I2C Slave See figure 9 3 T...

Page 69: ...of all traffic on an I2C Bus See figure 8 4 Fig 8 4 Aardvark I2C SPI Control Center The Beagle operates with supplied software called Data Center See figure 8 3 The Beagle I2C SPI Protocol Analyzer ha...

Page 70: ...ny assistance with applications or customer product design It is customer s sole responsibility to determine whether the NXP Semiconductors product is suitable and fit for the customer s applications...

Page 71: ......

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