Texas Instruments 1110EM900 The CC1110EM-868-915 is a development tool for TIs sub 1 GHz CC1110 chip. User Manual

Texas Instruments Inc. The CC1110EM-868-915 is a development tool for TIs sub 1 GHz CC1110 chip. CC2510 CC2511DK Quick Start

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SWRU285 June 2013  Web sites:  www.ti.com/lprf E2E Forum:  www.ti.com/lprf-forum Make sure to subscribe to the Low-Power RF Newsletter to receive information about updates to documentation, new product releases and more. Sign up on the TI web pages.   CC1110EMK Quick Start Guide  Opening the box an running the Packet Error Rate Test on SmartRF04EB  1. Kit Contents  2 x CC1110EM (433 MHz or 868-915 MHz) 2 x Antennas (type depending on frequency)  The 868-915  MHz  RF boards  in this kit are FCC  and  IC  certified  and  are  tested  to comply with ETSI/R&TTE over temperatures from 0 to +35°C.  FCC/IC Regulatory Compliance FCC Part 15 Class A Compliant IC ICES-003 Class A Compliant  Antenna types: 868-915 MHz:   Pulse W5017, 2 dBi 433 MHz:   Pulse SPWH24433TI, 0 dBi  2. How to use the modules  The  EMK  is  an  add-on  kit  to  supplement  the CC1110DK  with  evaluation  boards  supporting additional frequency bands.  The CC1110EM boards can be plugged into several development  boards  from  Texas  Instruments.  Most notably,  you  can  use  the  SmartRF04EB,  which  is included in the CC1110-CC1111DK. This board lets you  run  a  packet  error  rate  (PER)  test,  control  the device from SmartRF™ Studio and it can be used as a development platform.  It  is  also  possible  to  plug  the  EM  into  the  “SoC Battery  Board”.  This  board,  together  with  the  CC Debugger,  will  provide  a  complete  development environment for the CC1110. See:  http://www.ti.com/tool/soc-bb  This guide will show how to use the modules together with SmartRF04EB.   3. Plug EM into EB    Insert a CC1110EM into both SmartRF04EBs. The connectors  will only fit  in one  position, so that the EM cannot be inserted the wrong way. Do not force the EM. Remember to connect the antenna as well.  Caution!  The  kit  contains  ESD  sensitive components.  Handle  with  care  to  prevent permanent  damage.  To  minimize  risk  of injury,  avoid  touching  components  during operation if symbolized as hot. 4a. Battery power    There  are  three  different  ways  of  applying power to the EB:  The  first  method  involves  using  a  battery, either  a  9V  or  a  4xAA  battery  pack connected  to  the  battery  connector  on  the bottom side of the board  Warning! To minimize risk of personal injury or property damage, never use rechargeable batteries to power the board. 4b. DC power     The  second  method  applies  DC  power  using  the DC input jack (right in picture, centre is +, sleeve is ground), or by connecting a 4-10V voltage source between the 4-10V and 0V terminals of the power connector  (left  in  picture).  It  is  also  possible  to connect  a  3.3V  voltage  source  between  the  3.3V and 0V terminals. The on-board voltage regulators will be bypassed in this case.  External Power Supplyi Requirements: Nom Voltage: 6 VDC Max Current: 800 mA Efficiency Level V  4c. USB power     The  EB  can  also  be  powered  from  the  USB  bus. Make  sure  that  the  SmartRF™  Studio  software  is installed  before  connecting  the  EB  to  the  PC; otherwise  you  may  experience  problems  in installing it later due to driver issues.  Note that if multiple power sources are connected, the source  with  the  highest  voltage  will  power  the EB. This means that you should disconnect any attached  battery  when  using  a  lab  supply  or USB  power;  otherwise  the  battery  will  be drained.  5. Set power switch    If a 3.3V source is used as described in 4b above,  the  switch  should  be  set  to  the leftmost  position.  For  all  other  cases,  the switch  should  be  set  to  the  rightmost position. This switch can be used to turn off the  EB  by  switching  it  to  the  opposite position of that used to turn it on  Do  not  leave  the  board  powered  when unattended. 6. Packet error rate test   When  power  is  applied  to  the  board,  the  test program will start. You should see the Chipcon logo with  chip  name  and  revision  number  as  shown above  on  the  LCD  display  on  both  EBs.  Pushing button S1 in the lower right corner of the board will show the first menu item. 7. Select Frequency   Select  the  frequency  that  you  want  to  use  (433 MHz, 868 MHz,  903 MHz  or  915 MHz).  Move  the joystick up or down to display the choices and push button S1 in the lower right corner of the board to select the displayed frequency.
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Document ID2024380
Application IDFw54IpvWfQDIr4dlznctzQ==
Document DescriptionUser manual
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeUser Manual
Display FormatAdobe Acrobat PDF - pdf
Filesize91.13kB (1139082 bits)
Date Submitted2013-07-24 00:00:00
Date Available2013-07-24 00:00:00
Creation Date2013-06-11 15:39:16
Producing SoftwareMicrosoft® Word 2010
Document Lastmod2013-06-11 15:39:16
Document TitleCC2510/CC2511DK Quick Start
Document CreatorMicrosoft® Word 2010
Document Author: Ola Stengel
FCC ID Filing: ZAT1110EM900

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