Related Manuals for Continental Refrigerator FE4NA0210
Summary of Contents for Continental Refrigerator FE4NA0210
- Page 1 FE4NA0210 OEM Manual and User Guide v 1.0 (to be used for certification) FCC ID: LHJ-FE4NA0210 IC: 2807E-FE4NA0210...
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Page 2: Terms And Acronyms
Terms and Acronyms CDMA Code Division Multiple Access UMTS Universal Mobile Telecommunication System WCDMA Wideband Code Division Multiple Access Long Term Evolution LTE-A LTE-Advanced GLONASS GLObalnaya NAvigatsionnaya Sputnikovaya Sistema GNSS Global Navigation Satellite System DCM-TCU Data Connectivity Module Discontinuous Reception Engineering Sample Frequency Division Duplex GPIO... -
Page 3: Key Features
FE4NA0210 Module The FE4NA0210 NAD is a proprietary embedded module designed by Continental Automotive Systems, Inc. The modules will be integrated into Data Connectivity Modules (DCM-TCUs) or USB hosts (HUs) designed and produced by Continental or by a 3rd party for use by automotive OEMs. DCM-TCUs will be installed into vehicles during the OEM’s factory assembly process and will not be accessible without... - Page 4 » This radio transmitter (2807E-FE4NA0210) has been approved by Industry Canada to operate with the antenna types listed below with the maximum permissible gain indicated. Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device.
- Page 5 • « Le présent émetteur radio (ID: LHJ-FE4NA0210; IC: 2807E-FE4NA0210) a été approuvé par Industrie Canada pour fonctionner avec les types d'antenne énumérés ci-dessous et ayant un gain admissible maximal.
- Page 6 1. End-users must be provided with transmitter/antenna installation requirements and operating conditions for satisfying RF exposure compliance: 2. A separate section should clearly state “FCC RF Exposure requirements:” 3. Required operating conditions for end users. 4. The antenna used with this device must be installed to satisfy RF exposure compliance. The antenna gain, including cable loss, must not exceed values listed above.
- Page 7 Multi-transmission is not possible. The figure below shows the general breakout of the module: Figure 2: NAD Pin Breakout The FE4NA0210 NAD should be oriented on the main board to minimize the length of the primary LTE TX/RX antenna (LTE_ANT_1). This 50ohm line should be as short as possible to the external RF connector or internal antenna feed point.
- Page 8 For example, consider the following stackup for a main PCB: Figure 3: Recommended PCB Stack-up Assume the main PCB above with a 6 layer stack up with ground cut away on layer 2 so the microstrip lines reference ground on layer 3. The dielectric thickness from L1 to L3 is 21.2 mils. Using an online impedance calculator, the line width under the NAD for a 50 ohm line is 15.9mils (405micron) shown below: Figure 4: Stripline Impedance Calculations...
- Page 9 Figure 5: Microstrip Impedance Calculations Due to the nature of the weave chosen for each PCB, the dielectric constant of the NAD board is 4.1 while the main board is 4.3. A dielectric constant of 4.2 was chosen in the stripline calculation, while 4.3 was used for the microstrip calculation.
- Page 10 Figure 7: Antenna Line Stripline Routes On Inner Layer These line widths may vary depending on the stack up selected for the main board. 6.3 RF Antenna Layout Parameters Type of Guidance Requirement Trace impedance 50-Ohms ± 10% single-ended Total route length <100-mm Ground between signals >...
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