all | frequencies |
|
exhibits | applications |
---|---|---|---|---|
manual |
app s | submitted / available | |||||||
---|---|---|---|---|---|---|---|---|
1 |
|
User manual | Users Manual | 212.80 KiB | July 25 2019 | |||
1 |
|
Int photos | Internal Photos | 612.02 KiB | July 25 2019 | |||
1 |
|
LTC request | Cover Letter(s) | 31.47 KiB | July 25 2019 | |||
1 |
|
Label and Location | ID Label/Location Info | 303.01 KiB | July 25 2019 | |||
1 |
|
MA letter | Cover Letter(s) | 849.77 KiB | July 25 2019 | |||
1 |
|
Power of Attorney Letter | Cover Letter(s) | 111.94 KiB | July 25 2019 | |||
1 |
|
Test report | Test Report | 1.49 MiB | July 25 2019 | |||
1 |
|
ext photos | External Photos | 771.56 KiB | July 25 2019 | |||
1 |
|
test setup photos | Test Setup Photos | 761.39 KiB | July 25 2019 |
1 | User manual | Users Manual | 212.80 KiB | July 25 2019 |
User Manual eGym RFID Board v2 Standalone User Manual / Integration Manual eGym RFID Board v2 Type Standalone FCCID: 2APOCEGYMRFID02S IC: 23832-EGYMRFID02S Document Version: 1.4 Date: 15.07.2019 User Manual eGym RFID Board v2 Standalone 1. SYSTEM OVERVIEW The eGym RFID Board v2 is a reader for RFID transponders operating at 13.56 MHz;
it supports standards ISO14443A, ISO14443B and ISO15693. The board has USB as well as UART connectors which are used for communication and for power. When connected via USB the eGym RFID Board v2 will automatically establish a connection to the USB equipped host device (It may be the case that a USB driver provided by STMicroelectronics[www.st.com] must be installed). The RFID-Communication between the eGym RFID Board v2and an RFID transponder is handled by the eGym RFID Board v2. When the communication between eGym RFID Board v2 and a RFID transponder is successful, the UID of the transponder is transmitted over the USB or UART line. The RFID Antenna is integrated on the PCB as a printed trace. On the backside of the board five RGB LEDs are mounted. The control of the lights and its animations are done automatically by the eGym RFID Board v2. 2. POWER SUPPLY The eGym RFID Board v2 needs to be powered by 5 Volts supplied either via USB, i.e. standard USB power, or via the UART connector (see Chapter 3). 3. CONNECTORS UART:
Pin 1 2 3 4 5 6 Description GND GPIO2 GPIO1 UART_RX UART_TX
+5V Chart 1: Pinout UART connector User Manual eGym RFID Board v2 Standalone USB:
Pin 1 2 3 4 For USB a standard micro-USB connector is used with standard pin-out. Description Power Data1 Data2 GND Chart 1: Pinout UART connector 4. MOUNTING AND PLACEMENT OF THE READER The eGym RFID Board v2 can be mounted by using the 4 screw holes, M3 screws are recommended. User Manual eGym RFID Board v2 Standalone Figure 1: Top view of the eGym RFID Board v2 To provide an as-good-as-possible read range, no metal plates should be in front or behind the readers antenna. The read range is influenced by its surrounding materials. Due to vias on the backside of the PCB, the PCB shouldnt be directly placed on electrically conducting material. User Manual eGym RFID Board v2 Standalone 5. SETTING UP THE DEVICE Before the eGym RFID Board v2 may be used, the STMicoelectronics USB driver must be installed, as mentioned in Section 1. 1. Connect the eGym RFID Board v2 to to a USB host device using a micro USB cable. (See Sections 2 and 3) 2. When the device is appropriately powered, the device will turn on. This is represented by LED 1 (See Figure 2) turning on. 3. Shortly after start up the device enters a bootloader, checking for available software. This is represented by LED 2 and LED 3 blinking. 4. After 2 minutes the bootloader exists and the device goes into its RFID searching state; represented by all LEDs turning off. 5. While in searching state the five RGB LEDs turn on and animate a wave animation. 6. When an RFID-Transponder, compliant to one of the RFID-Standards mentioned in Section 5, is put in front of the readers antenna and a successful communication is established, the UID of the Tag is sent via USB or UART to the host device. The RGB LEDs flash white when a successful read out was performed. Figure 2: Mounted LEDs on the PCB User Manual eGym RFID Board v2 Standalone 6. Technical Description:
Nominal voltage: 5 V Voltage supply range: 4.75 V - 5.25 V Temperature range: -20 C - +50 C RFID- Frequency: 13.56 MHz Type of antenna: PCB loop antenna Supported RFID standards: ISO14443A, ISO14443B, ISO15693 7. PRODUCT LABELING:
Printed on PCB:
eGym Version 02 HVIN: eGym RFID Board v2 FCC ID: 2APOCEGYMRFID02S IC:23832-EGYMRFID01S User Manual eGym RFID Board v2 Standalone 8. NOTES:
USA:
FCC notes for a host subject to SDoC:
For a host device assembled with the certified module and subject to 47 CFR Part 15 of digital devices, the following statements have to be included in the user manual and the host device has to be labelled as noted below. If the host device is subject to other authorization procedures or parts the appropriate requirements of these authorization procedures or parts apply. The end device must be labeled with:
Contains FCC ID: 2APOCEGYMRFID02S Contains IC: 23832-EGYMRFID02S Modification of equipment:
The instruction manual of the host shall include the following statement:
Changes or modifications made to this equipment not expressly approved by the party responsible for compliance may void the FCC authorization to operate this equipment. Information for the OEM (Integrator):
Co-location of this module with other transmitters that operate simultaneously are required to be evaluated using the FCC multi-transmitter procedures. The host integrator must follow the integration instructions provided by the module manufacturer and ensure that the composite-system end product complies with the FCC requirements by a technical assessment or evaluation to the FCC rules and to KDB Publication 996369. The host integrator installing this module into their product must ensure that the final composite product complies with the FCC requirements by a technical assessment or evaluation to the FCC rules, including the transmitter operation and should refer to guidance in KDB 996369. User Manual eGym RFID Board v2 Standalone Information to the user:
(The instruction manual of the host shall include the following statement) A compliance statement as applicable, e.g., for devices subject to part 15 of CFR 47 as specified in 15.19(a)(3), that the product complies with the rules; and the identification, by name, address and telephone number or Internet contact information, of the responsible party, as defined in 2.909. The responsible party for Suppliers Declaration of Conformity must be located within the United States. Example for SDoC:
Suppliers Declaration of Conformity Uniquie Identifier: (e.g., Trade Name, Model Number) Party issuing Suppliers Declaration of Conformity ABC Cooperation Street Address City, State Postal Code Country Telephone number or internet contact information Responsible Party - U.S. Contact Information Street, Address City, State Postal Code United States Telephone number or internet contact information FCC Compliance Statement (for products subject to Part 15) This device complies with Part 15 of FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (29 this device must accept any interference received, including interference that may cause undesired operation. User Manual eGym RFID Board v2 Standalone The compliance information statement shall be included in the user's manual or as a separate sheet. In cases where the manual is provided only in a form other than paper, such as on a computer disk or over the Internet, the information required by this section may be included in the manual in that alternative form, provided the user can reasonably be expected to have the capability to access information in that form. The information may be provided electronically as permitted in 2.935. NOTE: The Commission does not have a required SDoC format. This is an example only and is provided to illustrate the type of information that may be supplied with the product at the time of marketing or importation for meeting the FCC SDoC requirement. Compliance statement:
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. For class B devices:
FCC 15.105 (b):
Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
- Reorient or relocate the receiving antenna.
-
- Connect the equipment into an outlet on a circuit different from that to which Increase the separation between the equipment and receiver. the Receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help. User Manual eGym RFID Board v2 Standalone For class A devices:
FCC 15.105 (b):
NOTE: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. CANADA:
This device complies with Industry Canadas license-exempt RSSs. Operation is subject to the following two conditions:
(1) This device may not cause interference; and
(2) This device must accept any interference, including interference that may cause undesired operation of the device. Le prsent appareil est conforme aux CNR dIndustrie Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes:
1) lappareil ne doit pas produire de brouillage;
2) lutilisateur de lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. Special accessories:
Where special accessories such as shielded cables and/or special connectors are required to comply with the emission limits, the instruction manual shall include appropriate instructions on the first page of the text describing the installation of the device. User Manual eGym RFID Board v2 Standalone Simultaneous transmission:
When the host product supports simultaneous-transmission operations the host manufacturer needs to check if there are additional RF exposure filing requirements due to the simultaneous transmissions. When additional application filing for RF exposure compliance demonstration is not required (e. g. the RF module in combination with all simultaneously operating transmitters complies with the RF exposure simultaneous transmission SAR test exclusion requirements), the host manufacturer may do his own evaluation without any filing, using reasonable engineering judgment and testing for confirming compliance with out-of-band, restricted band, and spurious emission requirements in the simultaneous-transmission operating modes. If additional filing is required please contact the person at eGym responsible for certification of the RF module.
1 | Int photos | Internal Photos | 612.02 KiB | July 25 2019 |
1 Annex C documentation 1.1 List of Pictures Picture 1: EUT - bottom side, without shielding ................................................................. 2 Picture 2: Shielding top side ........................................................................................... 2 Picture 3: Shielding bottom side ..................................................................................... 3 EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex C Page 1 of 3 Picture 1: EUT - bottom side, without shielding Picture 2: Shielding top side EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex C Page 2 of 3 Picture 3: Shielding bottom side EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex C Page 3 of 3
1 | LTC request | Cover Letter(s) | 31.47 KiB | July 25 2019 |
Long/Short-term Confidentiality Request Date: 27 May 2019 2APOCEGYMRFID02S PHOENIX TESTLAB GmbH Product Certification Knigswinkel 10 D 32825 Blomberg FCC ID:
To Whom It May Concerns, Pursuant to sections 0.457(d) and 0.459 of CFR 47 and to avoid premature release of sensitive information prior to marketing or release of the product to the public, we hereby request long-term confidential treatment of information accompanying this application as outlined below:
Schematics Block Diagram Operational Description In addition we hereby request the following exhibits contained in this application to be temporarily (short-term confidentiality) withheld from the public disclosure for an initial period of days External Photos Internal Photos The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these matters might be harmful to the applicant and provide unjustified benefits to its competitors. The applicant understands that pursuant to rule 0.457(d), disclosure of this application and all accompanying documentation will not be made before the date of the GRANT for this application. If you have any questions, please feel free to contact me. Yours sincerely, Tobias Zollner Head of Product Compliance Management Parts List Tune-Up Info Test Setup Photos Users Manual until:
not applicable
1 | Label and Location | ID Label/Location Info | 303.01 KiB | July 25 2019 |
Label:
eGym Version 02 HVIN: eGym RFID Board v2 FCC ID: 2APOCEGYMRFID02S IC: 23832-EGYMRFID02S
(Printed on PCB) Location:
1 | MA letter | Cover Letter(s) | 849.77 KiB | July 25 2019 |
PHOENIX TESTLAB GmbH Product Certification Knigswinkel 10 D 32825 Blomberg Attn:
Reviewing Engineer Date: 6/12/2019 Subject: REQUEST FOR FCC Part 15 MODULAR TRANSMITTER APPROVAL FCC ID: 2APOCEGYMRFID02S To Whom It May Concern:
We, (eGym GmbH), hereby request a modular / limited modular approval. In CFR47 15.212 Modular Transmitters and KDB 996369 D01 Module Equip Auth Guide there are following eight numbered requirements defined:
1. The radio elements must have the radio frequency circuitry shielded. Physical components and tuning capacitor(s) may be located external to the shield, but must be on the module assembly. The RFID-Elements of the transmitter are shielded on this device. 2. The modular transmitter must have buffered modulation/data inputs (if such inputs are provided) to ensure that the module will comply with part 15 requirements under conditions of excessive data rates or over-modulation. The modular transmitter has buffered data inputs, which are integrated within the chip STMF0(U6). 3. The modular transmitter must have its own power supply regulation on the module. 5V input via USB or UART interface. All used voltage inputs to ICs are regulated. Regulated 3V3 via U4 and regulated 4V75 via U5. U4 and U5 are placed on the PCB. 4. The module must contain a permanently attached antenna, or contain a unique antenna connector, and be marketed and operated only with specific antenna(s), per 15.203, 15.204(b), 15.204(c), 15.212(a), 2.929(b). The RFID antenna is printed on the PCB and thus permanently attached. 5. The module must demonstrate compliance in a stand-alone configuration. The eGym RFID Board v2 was indeed tested in stand-alone configuration. 6. The modular transmitter must be equipped with either a permanently affixed label or must be capable of electronically displaying its FCC identification number (KDB 784748). The label is printed permanently on the backside of the PCB. If the label cant be seen when installed, then the host label must include the text: CONTAINS FCC ID 2APOCEGYMRFID02S. 7. The modular transmitter must comply with any specific rule or operating requirements applicable to the transmitter and the manufacturer must provide adequate instructions along with the module to explain any such requirements The eGym RFID Board is compliant with all applicable FCC rules. Detailed instructed are given in the User Manual. 8. The modular transmitter must comply with any applicable RF exposure requirements in its final configuration. This RF module is compliant to FCC Rule Part 15.225 and therefore categorically excluded. Yours sincerely, Jason Bridges, VP Engineering Hardware
1 | Power of Attorney Letter | Cover Letter(s) | 111.94 KiB | July 25 2019 |
PHOENIX TESTLAB GmbH Product Certification Department Konigswinkel 10 D 32825 Blomberg To Whom It May Concern:
Please be advised that we (eGym Gmbh) authorizes the following persons from EMV Testhaus GmbH:
e Mr. Tobias Zollner to handle the application of Type Approval Services for the following coutries:
USA Canada Unless future correspondence from us, please extend your full cooperation to EMV Testhaus GmbH regarding matters to the above mentioned products to 12 months after the signatory date of this authorization. Contact person Jason Bridges Position in the company VP Hardware Date of signatory 2019-05-06 Mem Jue Hien 06 Sjgnatory ~
1 | Test report | Test Report | 1.49 MiB | July 25 2019 |
Customer:
eGym GmbH Einsteinstrae 172 81677 Mnchen GermanyTel.: +49 89 921 3105-00 Fax: +49 89 921 3105-99 RF test report 190129-AU01+W03 eGym GmbH RFID reader module eGym RFID Board v2 The test result refers exclusively to the model tested. This test report may not be copied or published in extracts without the written authorization of the accreditation agency and/or EMV TESTHAUS GmbH EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany Tel.: +49 9421 56868-0 Fax: +49 9421 56868-100 Email: info@emv-testhaus.com Accreditation:
Test Firm Type accredited: Valid until 2019-06-05 MRA US-EU, FCC designation number: DE0010 BNetzA-CAB-02/21-02/5 Valid until 2023-11-26 Recognized on March 14th, 2019 by the Department of Innovation, Science and Economic Development (ISED) Canada as a wireless testing laboratory CAB identifier: DE0011 Test laboratory:
EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany The technical accuracy is guaranteed through the quality management of EMV TESTHAUS GmbH. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 2 of 52 Table of contents 1 Summary of test results ............................................................................................................ 5 2 Referenced publications ........................................................................................................... 7 3 Equipment under test (EUT) ..................................................................................................... 8 3.1 General information ........................................................................................................... 8 3.2 Radio specifications ........................................................................................................... 9 3.3 Photo documentation ......................................................................................................... 9 4 Test configuration and mode of operation ............................................................................... 10 4.1 Test configuration ............................................................................................................ 10 4.2 Mode of operation ............................................................................................................ 10 5 Test procedures...................................................................................................................... 11 5.1 General specifications ..................................................................................................... 11 5.2 AC power line conducted emission .................................................................................. 11 5.3 Radiated emissions below 30 MHz .................................................................................. 13 5.4 Radiated emissions from 30 MHz to 1 GHz ..................................................................... 15 5.5 Bandwidth measurements ............................................................................................... 18 5.6 Operation within the band 13.110 MHz - 14.010 MHz ...................................................... 18 5.7 Carrier frequency stability ................................................................................................ 19 6 Test results ............................................................................................................................. 20 6.1 AC power line conducted emissions 150 kHz to 30 MHz ................................................. 21 6.2 20 dB bandwidth .............................................................................................................. 28 6.3 Occupied bandwidth ........................................................................................................ 32 6.4 Operation within the band 13.110 MHz 14.010 MHz ..................................................... 34 6.5 Carrier frequency stability ................................................................................................ 38 6.6 Emissions outside the operating frequency band(s) specified .......................................... 42 7 Equipment calibration status ................................................................................................... 50 8 Measurement uncertainties .................................................................................................... 51 9 Revision history ...................................................................................................................... 52 EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 3 of 52 List of figures Figure 1: Setup for AC power-line conducted emissions test from 150 kHz to 30 MHz .................. 12 Figure 2: Setup for radiated emissions test below 30 MHz ............................................................ 15 Figure 3: Setup for radiated emissions test from 30 MHz to 1 GHz ............................................... 17 Figure 4: Test setup for carrier frequency stability measurement ................................................... 19 Figure 5: Chart of AC power-line conducted emissions test phase L1, without termination ......... 24 Figure 6: Chart of AC power-line conducted emissions test phase N, without termination .......... 25 Figure 7: Chart of AC power-line conducted emissions test phase L1, with termination .............. 26 Figure 8: Chart of AC power-line conducted emissions test phase N, with termination ............... 27 Figure 9: Chart of 20 dB bandwidth ............................................................................................... 30 Figure 10: Chart of occupied bandwidth test .................................................................................. 33 Figure 11: Spektrum mask of 13.56 MHz @ 3m distance .............................................................. 36 Figure 12: Chart of emissions test below 30 MHz without tag in position 1, antenna in line @ 3 m 45 Figure 13: Chart of emissions test from 30 MHz to 1 GHz with tag in position 2 with tag @ 3 m .... 49 List of tables Table 1: Devices used for testing .................................................................................................. 10 Table 2: Bandwidth and detector type for AC power-line conducted emissions test ....................... 12 Table 3: Recalculation factors for extrapolation ............................................................................. 13 Table 4: Bandwidth and detector type for radiated emissions test below 30 MHz .......................... 14 Table 5: Bandwidth and detector type for radiated emissions test from 30 MHz to 1 GHz ............. 15 Table 6: AC power-line conducted limits ........................................................................................ 21 Table 7: Final results of AC power-line conducted emissions test phase L1, without termination 24 Table 8: Final results of AC power-line conducted emissions test phase N, without termination . 25 Table 9: Final results of AC power-line conducted emissions test phase L1, with termination .... 26 Table 10: Final results of AC power-line conducted emissions test phase N, with termination .... 27 Table 11: Results of 20 dB bandwidth tests ................................................................................... 30 Table 12: Results of occupied bandwidth test ................................................................................ 33 Table 13: Results of emission within the band 13.110 MHz to 14.010 MHz ................................... 36 Table 14: General radiated emission limits up to 30 MHz according to 15.209 ............................ 43 Table 15: Final results of emission below 30 MHz, without tag in position 1, antenna in line ......... 45 Table 16: General radiated emission limits 30 MHz according to 15.209 .................................. 47 Table 17: Chart of emissions test from 30 MHz to 1 GHz with tag in position 2 with tag @ 3 m ..... 49 EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 4 of 52 1 Summary of test results System type:
47 CFR part and section Test RFID Reader Equivalent to IC radio standard(s) Page Result Note(s) 15.207 AC power line conducted emissions 150 kHz to 30 MHz
---
Passed RSS-210, section 3.1 RSS-Gen, section 8.8 20 dB bandwidth
---
21 For information 15.215(c) 2.202(a) ANSI C63.10 Occupied bandwidth (99 %) 15.225
(a) (d) Operation within the band 13.110 14.010 MHz 15.225(e) Carrier frequency stability 15.209 Emissions outside the operating frequency band(s) specified 9 kHz to 1 GHz 9 kHz to 30 MHz 30 MHz to 1 GHz 1 GHz to xxx GHz RSS-Gen, section 6.7 RSS-210 section B.6 RSS-210, section B.6 RSS-Gen, section 6.11 RSS-Gen, section 6.13 RSS-Gen, section 8.9 only 32 For information only 34 Passed 38 Passed 42 46
---
Passed Passed
---
---
Not applicable 1,2 Notes (for information about EUT see clause 3):
1 Not applicable if the 10th harmonic of the intentional transmitter is beyond 1 GHz (please see 47 CFR Part 15, section 15.33(a)(1), and RSS-Gen, section 6.13) 2 According to 47 CFR Part 15, 15.33, the frequency range of investigation for the digital device shall be used if the range of investigation determined by the highest internal frequency of the digital device is higher then the 10th harmonic of the intentional radiator EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 5 of 52 Straubing, April 15, 2019 Andreas Menacher Test engineer EMV TESTHAUS GmbH Konrad Gral Head of radio department EMV TESTHAUS GmbH EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 6 of 52 2 Referenced publications Publication Title CFR 47 Part 2 October 2017 CFR 47 Part 15 October 2017 ANSI C63.10 June 2013 KDB 174176 D01 June 3, 2015 RSS-Gen, Issue 5 April 2018 Code of Federal Regulations, Title 47 (Telecommunication), Part 2 (Frequency allocation and radio treaty matters; General rules and regulations) of the Federal Communication Commission (FCC) Code of Federal Regulations, Title 47 (Telecommunication), Part 15 (Radio Frequency Devices) of the Federal Communication Commission (FCC) American National Standard of Procedures for Compliance Testing of Unlicensed Wireless Devices AC power-line conducted emissions Frequently Asked Questions Spectrum Management and Telecommunications -
Radio Standards Specification -
General Requirements for Compliance of Radio Apparatus RSS-210 Issue 9, August 2016 Spectrum Management and Telecommunications Radio Standards Specification Licence-exempt Radio Apparatus (All Frequency Bands): Category I Equipment EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 7 of 52 3 Equipment under test (EUT) All Information in this clause is declared by customer. 3.1 General information Product type:
Model name:
RFID Reader Module eGym RFID Board v2 Serial number(s):
Serial prototype Applicant:
Manufacturer:
eGym GmbH eGym GmbH Version:
Additional modifications:
Hardware:
Software:
---
FCC ID:
2APOCEGYMRFID02S IC registration number:
23832-EGYMRFID02S Power supply:
DC supply 1.0 102 Nominal voltage:
Minimum voltage:
Maximum voltage:
Nominal frequency:
5.00 V 4.75 V 5.25 V
---
Temperature range:
-25 C to +50 C (customer defined) Device type:
Portable Mobile Fixed EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 8 of 52 3.2 Radio specifications System type:
RFID Reader Application frequency band:
13.110 MHz 14.010 MHz Frequency range used:
13.559915 MHz 13.560348 MHz Operating frequency:
13.56 MHz Short description:
The EUT is a RFID Reader operating at the frequency 13.56 MHz. Number of RF channels 1 Highest internal frequency:
< 108 MHz Modulation ASK Antenna:
Type:
Connector:
PCB antenna external temporary internal none (integral antenna) 3.3 Photo documentation For external photos of the EUT see annex B, for internal ones see annex C. Photos taken during testing including EUT positions can be found in annex A. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 9 of 52 4 Test configuration and mode of operation 4.1 Test configuration Device Type designation Serial or inventory no. Manufacturer EUT RFID Reader Module eGym RFID Board v2 Serial protoype eGym GmbH Support equipment Notebook Notebook Power Supply PC1 Display1 USB Power Box2 RFID tag DC-Power supply2 LIFEBOOK U772 A11-100P3A Esprimo E900 TFT B22T-7 Pro USB Messbox 13.56 MHz Statron 3231.1 USB 2.0 Cat. Extender 1-
Port, POC UA0267 O00632 O00632 O00500 O00857 Fujitsu Fujitsu Fujitsu Fujitsu SEB01231 EMV Testhaus GmbH
---
E01235 eGym GmbH Statron Gertetechnik GmbH W01406 LogiLink Table 1: Devices used for testing 4.2 Mode of operation 4.2.1 Test software used for all tests Firmware EUT: 102-EMV Software:
HTerm.exe 4.2.2 Test modes applied EUT was configured by manufacturer to search permanently after tags. When a tag was detected the UID was send permanently to the Notebook via USB. The UID then was displayed via HTerm.exe. The information if a tag was used or not has been noted at the respective test. 1 Used for AC-power line conducted emissions measurements. 2 Only used for frequency stability tests. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 10 of 52 5 Test procedures 5.1 General specifications 5.1.1 Test setups Tabletop devices are placed on a non-conductive table with a height of 0.8 m. In case of AC power-line conducted emissions test, the rear of the EUT is located 40 cm to the vertical wall of the RF-shielded (screened) room which is used as vertical conducting plane. For radiated emission measurements above 1 GHz, tabletop devices are placed at a height of 1.5 m above the floor using a support made of styrene placed on top of the non-conductive table. Floor-standing devices are placed either directly on the reference ground-plane or on insulating material (see clause 6.3.3 of ANSI C63.4-2014 for more details). All other surfaces of tabletop or floor-standing EUTs are at least 80 cm from any other grounded conducting surface. This includes the case or cases of one or more LISNs when performing an AC power-line conducted emissions test. Radiated emission measurements of equipment that can be used in multiple orientations (e.g. portable or handheld devices) are performed with the EUT in each of three orthogonal axis positions. 5.2 AC power line conducted emission AC power-line conducted emissions are measured according to clause 6.2 of ANSI C63.10 over the frequency range from 150 kHz to 30 MHz to determine the line-to-ground radio-noise voltage that is conducted from all of the EUT current-carrying power input terminals that are directly (or indirectly via separate transformers or power supplies) connected to a public power network. The tests are performed in a shielded room. If the EUT normally receives power from another device that in turn connects to the public utility ac power lines, measurements are made on that device with the EUT in operation to demonstrate that the device continues to comply with the appropriate limits while providing the EUT with power. If the EUT is operated only from internal or dedicated batteries, with no provisions for connection to the public utility ac power lines (600 VAC or less) to operate the EUT (such as an adapter), then ac power-line conducted measurements are not required. For direct current (dc) powered devices where the ac power adapter is not supplied with the device, an off-the-shelf unmodified ac power adapter is used. If the device is supposed to be installed in a host (e.g., the device is a module or PC card), then it is tested in a typical compliant host. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 11 of 52 Frequency (f) Measurement Step size Detector type receiver bandwidth 150 kHz f < 30 MHz 9 kHz 4.5 kHz Prescan Prescan with FFT Final scan Peak, Average Quasi-peak, Quasi-peak, Average Average Table 2: Bandwidth and detector type for AC power-line conducted emissions test The AC power-line conducted emissions test is performed in the following steps:
a) The EUT is arranged as tabletop or floor-standing equipment, as applicable, and connected to a line impedance stabilization network (LISN) with 50 H / 50 . If required, a second LISN of the same type and terminated by 50 is used for peripheral devices. The EUT is switched on. b) The measurement equipment is connected to the LISN for the EUT and set-up according to the specifications of the test (see table 2). At the LISN, the neutral line is selected to be tested. c) The prescan is performed with both detectors activated at the same time. If the test receiver is capable of FFT analysis, it is used for prescan, but not for final scan. d) When the prescan is completed, maximum levels with less margin than 10 dB or exceeding the limit are determined and collected in a list. e) With the first frequency of the list selected, a frequency zoom over a range of ten times of the measurement receiver bandwidth around this frequency is performed. If the EUT has no significant drift in frequency, the frequency zoom can be skipped. f) For final scan, the emission level is measured and the maximum is recorded. g) Steps e) to f) are repeated for all other frequencies in the list. At least the six highest EUT emissions relative to the limit have to be recorded. h) Steps c) to g) are repeated for all current-carrying conductors of all of the power cords of EUT, i.e. all phase and (if used) neutral line(s). Figure 1: Setup for AC power-line conducted emissions test from 150 kHz to 30 MHz EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 12 of 52 5.3 Radiated emissions below 30 MHz Radiated emissions below 30 MHz are measured according to clause 6.4 of ANSI C63.10 using an inductive shielded loop antenna. As this antenna measures the magnetic field only, its antenna factors are converted to electric field strength values assuming a free space impedance of 377 as described in clause 4.3.1 of ANSI C63.10. This results in an additional correction of 51.53 dB. According to clause 6.4.3 of ANSI C63.10, at frequencies below 30 MHz, measurements may be performed at a distance closer than that specified in the requirements. In this case, the results are extrapolated to the specified distance by using a recalculation factor determined according to one of the methods described in clause 6.4.4 of ANSI C63.10, provided that the maximum dimension of the device is equal to or less than 0.625 times the wavelength at the frequency being measured. As the minimum wavelength is 10 meters corresponding to the maximum frequency of 30 MHz, this requirement is fulfilled if the maximum dimension of the device is equal to or less than 6.25 meters. Unless otherwise stated, the recalculation factor is determined according to clause 6.4.4.2 Extrapolation from the measurement of a single point of ANSI C63.10:
dnear field fMHz The frequency fMHz at which the near field distance is equal to the limit and/or test distance is important for selection of the right formula to determine the recalculation factor:
fMHz(300 m) fMHz(30 m) fMHz(3 m) Based on the test distances for the general radiated emission limits as specified in 15.209 of 47 CFR Part 15, the following formulas are used to determine the recalculation factor:
0.159 MHz 1.592 MHz 15.923 MHz
= 47.77 / fMHz, or
= 47.77 / dnear field Frequency (f) dlimit dmeasure Formula for recalculation factor 9 kHz f 159 kHz 490 kHz < f 1.592 MHz 159 kHz < f 490 kHz 1.592 MHz < f 15.923 MHz 300 m 30 m 300 m 30 m 3 m 3 m
-40 log(dlimit / dmeasure)
-40 log(dnear field / dmeasure) - 20 log(dlimit / dnear field) f > 15.923 MHz 30 m 3 m
-20 log(dlimit / dmeasure) Table 3: Recalculation factors for extrapolation Prescans for radiated measurements below 30 MHz are performed in a fully anechoic room (called CDC). The measurement distance is 3 meters. The emissions of the EUT are recorded with an EMI test receiver configured as described in table 4. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 13 of 52 Frequency (f) Measurement Step size Detector type receiver bandwidth Prescan Prescan with FFT Final scan 9 kHz f < 150 kHz 200 Hz 100 Hz 150 kHz f < 30 MHz 9 kHz 4.5 kHz Peak, Average Peak, Average Peak Peak Quasi-peak, Quasi-peak, Average Peak Average Peak Quasi-peak, Quasi-peak, Average Average Table 4: Bandwidth and detector type for radiated emissions test below 30 MHz Sample calculation:
Frequency Reading value
(MHz) 10
(dBV) 20.00 Antenna correction
(dB/m) 19.59 Cable attenuation Correction factor Level
(dB) 0.33
(Corr.)
(dB/m) 19.92
(dBV/m) 39.92 Correction factor = Antenna correction + Cable attenuation Level = Reading value + Correction factor = 20 dBV + 19.92 dB/m = 39.92 dBV/m Prescans are performed with all detectors activated at the same time. If the test receiver is capable of FFT analysis, it is used for prescans, but not for final scans. If no limit is specified for certain detectors, final scan measurement with these detectors may be omitted. The radiated emissions test below 30 MHz is performed in the following steps:
a) The loop antenna is positioned with its plane perpendicular to the ground with the lowest height of the antenna 1 m above the ground. b) The EUT is placed in its standard position on a turntable capable of rotation through 360 in the horizontal plane and arranged as tabletop or floor-standing equipment, as applicable. The EUT is switched on. c) The measurement equipment is connected to the loop antenna and set-up according to the specifications of the test (see table 4). d) The EUT is turned to a position likely to get the maximum and the test antenna is rotated to detect the maximum of the fundamental in this EUT position. e) Then the EUT is rotated in a horizontal plane through 360 in steps of 45. Starting at 0, at each table position the spectrum for the full frequency range is recorded. If the emission at a certain frequency is higher than the levels already recorded, the current table position is noted as the maximum position. f) After the last prescan, the significant maximum emissions and their table positions are determined and collected in a list. g) With the test receiver set to the first frequency of the list, the EUT is rotated by 45 around the table position found during prescans while measuring the emission level continuously. For final scan, the worst-case table position is set and the maximum emission level is recorded. h) Step g) is repeated for all other frequencies in the list. i) Finally, for frequencies with critical emissions the loop antenna is rotated again to find the maximum of emission. At least, frequency and level of the six highest emissions relative to the EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 14 of 52 limit have to be recorded. However, emissions more than 20 dB below the limit do not need to be reported. If the EUT may be used in various positions, steps a) to i) are repeated in two other orthogonal positions. If the EUT may be used in one position only, steps a) to i) are repeated in one orthogonal position. Figure 2: Setup for radiated emissions test below 30 MHz 5.4 Radiated emissions from 30 MHz to 1 GHz Radiated emissions in the frequency range 30 MHz to 1 GHz are measured according to clause 6.5 of ANSI C63.10 using a semi-anechoic chamber (SAC) with a ground plane on the floor. The measurement distance is 3 meters. The emissions of the EUT are recorded with an EMI test receiver configured as described in table 5. Frequency (f) Measurement Step size Detector type receiver bandwidth Prescan Prescan with FFT Final scan 30 MHz f 1 GHz 120 kHz 60 kHz Peak Quasi-peak Quasi-peak Table 5: Bandwidth and detector type for radiated emissions test from 30 MHz to 1 GHz Sample calculation:
Frequency Reading value
(MHz) 100
(dBV) 30.00 Antenna correction
(dB/m) 11.71 Cable attenuation Correction factor Level
(dB) 1.06
(Corr.)
(dB/m) 12.77
(dBV/m) 42.77 Correction factor = Antenna correction + Cable attenuation Level = Reading value + Correction factor = 30 dBV + 12.77 dB/m = 42.77 dBV/m EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 15 of 52 The measurement antenna is a combination of a biconical antenna and a logarithmic-periodic dipole array antenna. It is mounted on a support capable of allowing the antenna to be used in either horizontal or vertical polarization and in a height between 1 m and 4 m above the ground plane. If the test receiver is capable of FFT analysis, it is used for prescans, but not for final scans. The radiated emissions test from 30 MHz to 1 GHz is performed in the following steps:
a) The measurement antenna is oriented initially for vertical polarization. b) The EUT is placed in its standard position on a turntable capable of rotation through 360 in the horizontal plane and arranged as tabletop or floor-standing equipment, as applicable. The EUT is switched on. c) The measurement equipment is connected to the measurement antenna and set-up according to the specifications of the test (see table 5). d) The table position is set to 0. e) The antenna height is set to 1 m. f) The spectrum for the full frequency range is recorded. If the emission at a certain frequency is higher than the levels already recorded, the polarization and height of the measurement antenna as well as the current table position are noted as the maximum position. g) The antenna height is increased to 4 m in steps of 50 cm. At each height, step f) is repeated. h) The polarization of the measurement antenna is changed to horizontal. i) The antenna height is decreased from 4 m to 1 m in steps of 50 cm. At each height, step f) is repeated. j) The EUT is rotated in a horizontal plane through 360 in steps of 60. At each table position, steps e) to i) are repeated. k) After the last prescan, the significant maximum emissions with their polarizations and heights of the measurement antenna as well as their table positions are determined and collected in a list. l) With the test receiver set to the first frequency of the list, the measurement antenna is set to the polarization and height and the table is moved to the position as determined during prescans. m) The antenna is moved by 50 cm around this height and the EUT is rotated by 60 around this table position while measuring the emission level continuously. n) For final scan, the worst-case positions of antenna and table are set and the maximum emission level is recorded. o) Steps l) to n) are repeated for all other frequencies in the list. At least, frequency and level of the six highest emissions relative to the limit have to be recorded. However, emissions more than 20 dB below the limit do not need to be reported. If the EUT may be used in various positions, steps a) to o) are repeated in two other orthogonal positions. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 16 of 52 Figure 3: Setup for radiated emissions test from 30 MHz to 1 GHz EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 17 of 52 5.5 Bandwidth measurements 5.5.1 20 dB bandwidth of the emission The 20 dB bandwidth of the emission is measured according to clause 6.9.2 of ANSI C63.10 as the width of the spectral envelope of the modulated signal, at an amplitude level reduced by a ratio of 20 dB down from the reference value. The spectrum analyzer center frequency is set to the nominal EUT channel center frequency. The span range for the EMI receiver or spectrum analyzer is between two times and five times the 20 dB bandwidth. The nominal IF filter bandwidth (3 dB RBW) shall be in the range of 1 % to 5 %
of the 20 dB bandwidth and the video bandwidth (VBW) shall be approximately three times RBW. The reference level of the instrument is set as required, keeping the signal from exceeding the maximum input mixer level for linear operation. In general, the peak of the spectral envelope shall be more than [10 log (20 dB bandwidth/RBW)] below the reference level. 5.5.2 99 % occupied bandwidth According to section 6.7 of RSS-Gen, the occupied bandwidth (OBW) is defined as the 99 %
emission bandwidth. The span of the spectrum analyzer is set large enough to capture all products of the modulation process, including the emission skirts, around the carrier frequency, but small enough to avoid having other emissions (e.g. on adjacent channels) within the span. The resolution bandwidth is in the range of 1 % to 5 % of the occupied bandwidth and the video bandwidth is not smaller than three times the resolution bandwidth. Video averaging is not permitted. If possible, the detector of the spectrum analyzer is set to Sample. However, if the device is not transmitting continuously, a peak, or peak hold is used in place of the sampling detector since this usually produces a wider bandwidth than the actual bandwidth (worst-case measurement). To measure the 99 % emission bandwidth, the OBW function of the test receiver is used with the power bandwidth set to 99 %. This function indicates the lowest frequency (starting from the left side of the span) and the highest frequency (starting from the right side of the span) where 0.5% of the total sum is reached. The difference between the two frequencies is the 99 % occupied bandwidth. 5.6 Operation within the band 13.110 MHz - 14.010 MHz The EUT was placed in a fully anechoic chamber and the testing was performed in accordance with ANSI C63.10 and 47 CFR Part 15, section 15.225 (a) to (d). The measurement distance was 3 EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 18 of 52 m. To find the closest margin of the spectrum to the limit mask adapted to the test distance the EUT was rotated by 360 degrees with detector of the test receiver set to peak. The loop antenna placed in a fixed height of 1 meter was rotated by 360 degrees to get the maximum of emission. In case of exceeding the limits the detector is switched to quasi peak for final testing in position of maximum emission. 5.7 Carrier frequency stability 1. If possible EUT is operating providing an unmodulated carrier. The peak detector of the spectrum analyzer is selected and resolution as well as video bandwidth are set to values appropriate to the shape of the spectrum of the EUT. The frequency counter mode of the spectrum analyzer is used to maximize the accuracy of the measured frequency tolerance. If an unmodulated carrier is not available a significant and stable point on the spectrum is selected and the span is reduced to a value that delivers an accuracy which shall be better than 1% of the maximum frequency tolerance allowed for the carrier signal. This method may be performed as long as the margin to the frequency tolerance allowed is larger than the uncertainty of the measured frequency tolerance. 2. The carrier frequency is measured depending on the variation in the primary supply voltage from 85% to 115% of the rated supply voltage at a temperature of 20 degrees C. For battery operated equipment an external supply voltage can be used and set at the battery nominal voltage, and again at the battery operating end point voltage which must be specified by the equipment manufacturer. Alternatively, tests shall be performed using a new battery. 3. The carrier frequency is measured over a temperature variation of -20 degrees to
+50 degrees C at normal supply voltage. Figure 4: Test setup for carrier frequency stability measurement EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 19 of 52 Spectrum analyzer External power source Temperature test chamber Attenuator (if applicable) Wooden support EUT Test fixture 6 Test results This clause gives details about the test results as collected in the summary of test results on page 5. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 20 of 52 6.1 AC power line conducted emissions 150 kHz to 30 MHz Section(s) in 47 CFR Part 15:
Section(s) in RSS:
Requirement(s):
Reference(s):
Requirement(s):
Reference(s):
15.207 ANSI C63.10, clause 6.2 RSS-Gen, section 8.8 ANSI C63.10, clause 6.2 Result3 Test passed Test not passed 6.1.1 Test equipment Type Shielded room EMI test receiver (OATS) EMI test receiver Artificial mains network Artificial mains network Attenuator (10 dB) Test software 6.1.2 Limits Designation Manufacturer Inventory no. P92007 ESCI 3 ESCS 30 ESH2-Z5 ESH2-Z5 Siemens Matsushita Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz 50FHB-010-10 JFW Industries EMC32-EB (V10.35) Rohde & Schwarz E00107 E00001 E00003 E00004 E00005 E00471 E00777 As specified in section 15.209 of 47 CFR Part 15, the emissions from an intentional radiator shall not exceed the conducted limits as specified in table 6. Frequency of emission
[MHz]
0.15 0.5 0.5 5.0 5 30 Conducted limit Quasi-peak
[dBV]
66 to 56*
56 60 Average
[dBV]
56 to 46*
46 50 Table 6: AC power-line conducted limits 3 For information about measurement uncertainties see page 85. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 21 of 52
* Decreases with the logarithm of the frequency. 6.1.3 Test procedure AC power line conducted emissions are measured using the test procedure as described in clause 5.2. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 22 of 52 6.1.4 Test results Performed by:
Andreas Menacher Date(s) of test:
March 14, 2019 Climatic conditions:
Ambient temperature 23 C Relative humidity 38 %
Barometric pressure 976 hPa Frequency range Step size IF Detector Measurement Time Preamplifier Bandwidth Prescan Final scan Prescan Final scan 9 kHz 10 ms PK, AV QP, AV 4.5 kHz 150 kHz 30 MHz Remark: According to KDB 174176 D01 Line Conducted FAQ v01r01 the intentional operator which operates below 30 MHz was first measured with the antenna connected to determine compliance with section 15.207 limits outside the transmitters fundamental emission band and then the antenna was replaced by a dummy load and the test was repeated to show compliance with section 15.207 limits within the transmitters fundamental emission band. 1 s Off EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 23 of 52 Figure 5: Chart of AC power-line conducted emissions test phase L1, without termination Frequency
(MHz) QuasiPeak
(dBV) Average
(dBV) Limit
(dBV) Margin
(dB) 13.561000 13.561000
---
71.66 71.14
---
50.00 60.00
-21.14
-11.66 Meas. Time
(ms) 1000.0 1000.0
(kHz) 9.000 9.000 Bandwidth Line PE Corr.
(dB) L1 L1 GND GND 11.8 11.8 Table 7: Final results of AC power-line conducted emissions test phase L1, without termination EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 24 of 52 Level in dBV Figure 6: Chart of AC power-line conducted emissions test phase N, without termination Frequency QuasiPeak
(MHz)
(dBV) Average
(dBV) Limit
(dBV) Margin
(dB) Meas. Time
(ms) Bandwidth Line PE
(kHz) 1.061000 1.065000 1.073000 1.081000 13.561000 13.561000 41.22 40.93
---
---
---
70.70
---
---
20.40 20.13 70.97
---
56.00 56.00 46.00 46.00 50.00 60.00 14.78 1000.0 15.07 1000.0 25.60 1000.0 25.87 1000.0
-20.97 1000.0
-10.70 1000.0 9.000 N 9.000 N 9.000 N 9.000 N 9.000 N 9.000 N GND GND GND GND GND GND Corr.
(dB) 10.2 10.3 10.3 10.3 12.0 12.0 Table 8: Final results of AC power-line conducted emissions test phase N, without termination EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 25 of 52 Level in dBV Figure 7: Chart of AC power-line conducted emissions test phase L1, with termination Frequency
(MHz) QuasiPeak
(dBV) Average
(dBV) Limit
(dBV) Margin
(dB) 1.069000 1.073000 1.077000 43.47
---
44.42
---
20.38
---
56.00 46.00 56.00 12.53 25.62 11.58 Meas. Time
(ms) 1000.0 1000.0 1000.0 Bandwidth Line PE
(kHz) 9.000 9.000 9.000 L1 L1 L1 GND GND GND Corr.
(dB) 10.3 10.3 10.3 Table 9: Final results of AC power-line conducted emissions test phase L1, with termination EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 26 of 52 Level in dBV Figure 8: Chart of AC power-line conducted emissions test phase N, with termination Frequency
(MHz) QuasiPeak
(dBV) Average
(dBV) Limit
(dBV) Margin
(dB) 1.029000 1.049000 1.053000 1.085000 39.30
---
42.39
---
---
22.04
---
24.45 56.00 46.00 56.00 46.00 16.70 23.96 13.61 21.55 Meas. Time
(ms) 1000.0 1000.0 1000.0 1000.0 Bandwidth Line PE
(kHz) 9.000 N 9.000 N 9.000 N 9.000 N GND GND GND GND Corr.
(dB) 10.2 10.2 10.2 10.3 Table 10: Final results of AC power-line conducted emissions test phase N, with termination EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 27 of 52 Level in dBV 6.2 20 dB bandwidth Section(s) in 47 CFR Part 15:
Requirement(s):
Reference(s):
15.215(c) ANSI C63.10 , clause 6.9 Performed by:
Andreas Menacher Date(s) of test:
March 21, 2019 Climatic conditions:
Ambient temperature 22 C Relative humidity 32 %
Barometric pressure 976 hPa Result4:
Test passed Test not passed 6.2.1 Test equipment Type EMI test receiver (CDC) Field probe Designation ESCI 3 RF-R 400-1 Manufacturer Rohde & Schwarz Langer EMV-Technik Inventory no. E00552 E00270 4 For information about measurement uncertainties see page 51. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 28 of 52 6.2.1 Limits According to 15.215(c), intentional radiators operating under the alternative provisions to the general emission limits must be designed to ensure that the 20 dB bandwidth of the emission, or whatever bandwidth may otherwise be specified in the specific rule section under which the equipment operates, is contained within the frequency band designated in the rule section under which the equipment is operated. The requirement to contain the designated bandwidth of the emission within the specified frequency band includes the effects from frequency sweeping, frequency hopping and other modulation techniques that may be employed as well as the frequency stability of the transmitter over expected variations in temperature and supply voltage. If frequency stability is not specified in the regulations, it is recommended that the fundamental emission be kept within at least the central 80% of the permitted band in order to minimize the possibility of out-of-band operation. 6.2.2 Test procedure The 20 dB bandwidth is measured using the test procedure as described in clause 5.5.1. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 29 of 52 6.2.3 Test results Remark: The 20 dB bandwidth measurement was performed without tag, because this was the worst case. Figure 9: Chart of 20 dB bandwidth 20 dB bandwidth Band edge left Band edge right Result
[Hz]
102 Frequency
[MHz]
13.560002 Limit
[MHz]
13.110 Frequency
[MHz]
13.560163 Limit
[MHz]
14.010 Recorded Table 11: Results of 20 dB bandwidth tests EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 30 of 52 fassigned
(MHz) 13.560000 Index low high f-20dB
(MHz) fT
(Hz) fU
(Hz) f-20dB(T, U)
(MHz) Limit
(MHz) Margin
(kHz) Result 13.560002 13.560163 87 87
---
98 13,559915 13.110000 449.915 Passed 13.560348 14.010000 449.652 Passed 433 Hz Bandwidth 102 Hz with:
f-20dB(low) f-20dB(high) fassigned fT(low)
= lower frequency in MHz where emission is at least 20 dB below the carrier
= upper frequency in MHz where emission is at least 20 dB below the carrier
= assigned frequency in kHz
= maximum absolute value of negative frequency offset to frequency at fU(low) fT(high) fU(high) nominal conditions caused by temperature variation in kHz
= maximum absolute value of negative frequency offset to frequency at nominal conditions caused by voltage variation in kHz
= maximum absolute value of positive frequency offset to frequency at nominal conditions caused by temperature variation in kHz
= maximum absolute value of positive frequency offset to frequency at nominal conditions caused by voltage variation in kHz fvolt(high)
= maximum absolute value of positive frequency offset to frequency at nominal conditions caused by voltage variation in kHz f-20dB(T, U)
= frequency in MHz where emission is at least 20 dB below the carrier, including offset caused by variations of temperature and supply voltage as recorded in clause 5.7 Measured -20 dB emission bandwidth:
At nominal conditions:
Including variations in temperature and supply voltage:
102 Hz 433 Hz EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 31 of 52 6.3 Occupied bandwidth Section(s) in 47 CFR Part 15:
Section(s) in RSS:
Requirement(s):
Reference(s):
Requirement(s):
Reference(s):
2.202(a) ANSI C63.10, clause 6.9 RSS-Gen, section 6.7 ANSI C63.10, clause 6.9 Performed by:
Andreas Menacher Date(s) of test:
March 21, 2019 Climatic conditions:
Ambient temperature 22 C Relative humidity 32 %
Barometric pressure 976 hPa Result5:
Test passed Test not passed 6.3.1 Test equipment Type EMI test receiver (CDC) Field probe Designation ESCI 3 RF-R 400-1 Manufacturer Rohde & Schwarz Langer EMV-Technik Inventory no. E00552 E00270 6.3.2 Limits Although there is no limit specified, the occupied bandwidth has to be recorded and reported. 6.3.3 Test procedure The occupied bandwidth is measured using the test procedure as described in clause 5.5.2. 5 For information about measurement uncertainties see page 51. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 32 of 52 6.3.4 Test results Remark: The occupied bandwidth measurement was performed without tag, because this was the worst case. Figure 10: Chart of occupied bandwidth test 99% bandwidth Band edge left Band edge right Result
[Hz]
432 Frequency
[MHz]
13.559890 Limit
[MHz]
13.110 Frequency
[MHz]
13.560322 Limit
[MHz]
14.010 Recorded Table 12: Results of occupied bandwidth test EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 33 of 52 6.4 Operation within the band 13.110 MHz 14.010 MHz Section(s) in 47 CFR Part 15:
Section(s) in RSS:
Requirement(s):
Reference(s):
Requirement(s):
Reference(s):
15.225 (a)-(e) ANSI C63.10, section 6.4 RSS-210, section B.6 ANSI C63.10, section 6.4 Performed by:
Andreas Menacher Date(s) of test:
March 14, 2019 Climatic conditions:
Ambient temperature 23 C Relative humidity 38 %
Barometric pressure 976 hPa Result6:
Test passed Test not passed 6.4.1 Test equipment Type Compact Diagnostic Chamber (CDC) Open area test site (OATS) Semi-anechoic chamber (SAC) EMI test receiver (CDC) EMI test receiver (OATS) EMI test receiver EMI test receiver EMI test receiver Field probe Loop antenna Cable set CDC Designation VK041.0174
---
SAC3 ESCI 3 ESCI 3 ESR 7 ESU 26 ESW 44 RF-R 400-1 HFH2-Z2 RF cable(s) Manufacturer Albatross Projects EMV TESTHAUS Albatross Projects Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Inventory no. E00026 E00354 E00716 E00552 E00001 E00739 Rohde & Schwarz W00002 Rohde & Schwarz Langer EMV-Technik Rohde & Schwarz Huber + Suhner AME HF-Technik AME HF-Technik Stabo E00895 E00270 E00060 E00446 E00920 E00921 E01215 6 For information about measurement uncertainties see page 51. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 34 of 52 6.4.2 Limits As specified in section 15.225(a)-(d) of 47 CFR Part 15:
The field strength of any emissions within the band 13.553-13.567 MHz shall not exceed 15,848 microvolts/meter at 30 meters. Within the bands 13.410-13.553 MHz and 13.567-13.710 MHz, the field strength of any emissions shall not exceed 334 microvolts/meter at 30 meters. Within the bands 13.110-13.410 MHz and 13.710-14.010 MHz the field strength of any emissions shall not exceed 106 microvolts/meter at 30 meters. The field strength of any emissions appearing outside of the 13.110-14.010 MHz band shall not exceed the general radiated emission limits in 15.209. In case of measurements are performed at other distances than that specified in the requirements, the limits in the charts and tables reported with the test results are derived from the general radiated emission limits as listed above using the recalculation factor as described in clause 5.3. 6.4.3 Test procedure The emission within the band 13.110 MHz 14.010 MHz is measured using the test procedure as described in clause 5.6. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 35 of 52 6.4.4 Test results Figure 11: Spektrum mask of 13.56 MHz @ 3m distance The final measurement was performed with tag, because the emission was 0.32 dB higher than without tag. Frequency
[MHz]
Measured value
[dBV/m] @ 3 m Detector Recalculation factor [dB]
Field strength
[dBV/m]
@ 30 m Limit
[dBV/m]
@ 30 m Margin
[dB]
BW
[kHz]
13.560000 74.11 PK
-21.40 52.71 84.00 31.29 10 Table 13: Results of emission within the band 13.110 MHz to 14.010 MHz EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 36 of 52 Recalculation factor is determined according to ANSI C63.10, section 6.4.4.2 Extrapolation from the measurement of a single point:
dnear field Recalculation factor
= 47.77 / fMHz
= -40 log(dnear field / dmeasure) - 20 log(dlimit / dnear field) fMHz
[MHz]
13.560000 dnear field
[m]
3.523 dmeasure
[m]
3.000 dlimit
[m]
30.000 Recalculation factor [dB]
-21.40 EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 37 of 52 6.5 Carrier frequency stability Section(s) in 47 CFR Part 15:
Requirement(s):
Reference(s):
15.225(e) 15.225(e) Section(s) in RSS:
Requirement(s):
Reference(s):
RSS-210, annex B6, RSS-Gen, section 6.11 RSS-Gen, section 6.11 Performed by:
Andreas Menacher Date(s) of test:
March 19, 2019 Climatic conditions:
Ambient temperature 24 C Relative humidity 41 %
Barometric pressure 977 hPa Result7:
Test passed Test not passed 6.5.1 Test equipment Type Climatic chamber 990 l Climatic chamber 340 l EMI test receiver (CDC) EMI test receiver (OATS) EMI test receiver EMI test receiver EMI test receiver Field probe Designation VC4100 VC 4034 ESCI 3 ESCI 3 ESR 7 ESU 26 ESW 44 Manufacturer Vtsch Industrietechnik Inventory no. C00014 Vtsch Industrietechnik C00015 Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz E00552 E00001 E00739 W00002 E00895 E00270 RF-R 400-1 Langer EMV-Technik 7 For information about measurement uncertainties see page 51. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 38 of 52 6.5.2 Limits The frequency tolerance of the carrier signal shall be maintained within 0.01% (100 ppm) of the operating frequency over a temperature variation of -20 degrees to +50 degrees C at normal supply voltage, and for a variation in the primary supply voltage from 85% to 115% of the rated supply voltage at a temperature of 20 degrees C. For battery operated equipment, the equipment tests shall be performed using a new battery. Alternatively, an external supply voltage can be used and set at the battery nominal voltage, and again at the battery operating end point voltage which must be specified by the equipment manufacturer. 6.5.3 Test procedure The carrier frequency stability is measured using the test procedure as described in clause 5.7. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 39 of 52 6.5.4 Test results Carrier frequency stability vs. temperature EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 40 of 52 Supply voltage:5 VTemperatureFrequencyUpper LimitLower LimitMargin(C)(MHz)(Hz)(ppm)(ppm)(ppm)(ppm)-2013.560170725.3+100.0-100.094.7-1013.560185876.4+100.0-100.093.6013.560185876.4+100.0-100.093.6+1013.560171735.4+100.0-100.094.6+2013.56009800.0+100.0-100.0100.0+3013.560070-28-2.1+100.0-100.097.9+4013.560040-58-4.3+100.0-100.095.7+5013.560011-87-6.4+100.0-100.093.6Frequency Tolerance13.560098 MHz Frequency under nominal conditions:-150.0-100.0-50.00.050.0100.0150.0-20-100+10+20+30+40+50Frequency Tolerance (ppm)Temperature (C)Frequency ToleranceUpper LimitLower Limit Carrier frequency stability vs. supply voltage EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 41 of 52 Temperature:+20 CBattery End Point:Not applicable Frequency under nominal conditions:Supply VoltageFrequencyUpper LimitLower LimitMargin(V)(MHz)(Hz)(ppm)(ppm)(ppm)(ppm)4.7513.560084846.2+100.0-100.093.85.0013.560098987.2+100.0-100.092.85.2513.560084846.2+100.0-100.093.8Frequency Tolerance13.56 MHz -150.0-100.0-50.00.050.0100.0150.04.755.005.25Frequency Tolerance (ppm)Supply Voltage (V)Frequency ToleranceUpper LimitLower Limit 6.6 Emissions outside the operating frequency band(s) specified 6.6.1 Emissions below 30 MHz Section(s) in 47 CFR Part 15:
Section(s) in RSS:
Result8:
Requirement(s):
Reference(s):
15.209 ANSI C63.10, clause 6.4 Requirement(s):
Reference(s):
RSS-Gen, section 6.13 ANSI C63.10, clause 6.4 Test passed Test not passed 6.6.1.1 Test equipment Type Compact Diagnostic Chamber (CDC) EMI test receiver Loop antenna Cable set CDC Designation VK041.0174 ESR 7 HFH2-Z2 RF cable(s) Manufacturer Albatross Projects Rohde & Schwarz Rohde & Schwarz Huber + Suhner AME HF-Technik AME HF-Technik Stabo Test software EMC32-MEB (V10.35) Rohde & Schwarz Inventory no. E00026 E00739 E00060 E00446 E00920 E00921 E01215 E00778 8 For information about measurement uncertainties see page 51. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 42 of 52 6.6.1.2 Limits Frequency
[MHz]
0.009 0.490 0.490 1.705 Field strength Measurement distance
[V/m]
2400/F(kHz)
(266.67 4.90) 24000/F(kHz)
(48.98 14.08)
[dBV/m]
48.52 13.80 33.80 22.97
[m]
300 30 30 1.705 30 30 29.54 Table 14: General radiated emission limits up to 30 MHz according to 15.209 In case of measurements are performed at other distances than that specified in the requirements, the limits in the charts and tables reported with the test results are derived from the general radiated emission limits as listed in table 14 using the recalculation factor as described in clause 5.3. 6.6.1.3 Test procedure The emissions below 30 MHz are measured using the test procedure for radiated measurements as described in clause 5.3. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 43 of 52 6.6.1.4 Test results Performed by:
Andreas Menacher Date(s) of test:
March 14, 2019 Climatic conditions:
Ambient temperature 23 C Relative humidity 38 %
Barometric pressure 976 hPa Test distance:
3 m Antenna alignment: in parallel 10 m in line
.. m angle .. EUT position9:
Position 1 Position 2 Position 3 Frequency range Step size IF Bandwidth Detector Measurement Time Preamplifier Prescan Final scan Prescan Final scan 9 kHz 150 kHz 50 Hz 200 Hz QP, PK, CAV QP, PK, AV 150 kHz 30 MHz 2.25 kHz 9 kHz QP, PK, CAV QP, PK, AV 2 s 2 s 1 s 1 s Off Off 9 Exploratory measurements are performed in all positions as indicated. However, the figures and result tables within this test report show the worst case position, only. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 44 of 52 Figure 12: Chart of emissions test below 30 MHz without tag in position 1, antenna in line @ 3 m Frequency Measured value Recalculation
(MHz) 13.560000 20.339250 QuasiPeak
(dBV/m) @ 3 m factor (dB) 72.38 35.84
-21.40
-17.06 Field strength
(dBV/m) @
Limit Margin Azimuth Result
(dBV/m) @ 30 m
(dB)
(deg) 30 m 50.98 18.78 84.00 29.54 33.02 10.76 195.0 135.0 Pass Pass Table 15: Final results of emission below 30 MHz, without tag in position 1, antenna in line CFR 47 15.209. Note: The frequency 13.56 MHz is the carrier frequency and doesnt fall under the limit of Recalculation factor is determined according to ANSI C63.10, section 6.4.4.2 Extrapolation from the measurement of a single point:
dnear field Recalculation factor
= 47.77 / fMHz
= -40 log(dnear field / dmeasure) - 20 log(dlimit / dnear field) fMHz
[MHz]
13.560000 22.339250 dnear field
[m]
3.523 2.138 dmeasure
[m]
3.000 3.000 dlimit
[m]
30.000 30.000 Recalculation factor [dB]
-21.40
-17.06 EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 45 of 52 Level in dBV/m 6.6.2 Emissions from 30 MHz to 1 GHz Section(s) in 47 CFR Part 15:
Section(s) in RSS:
Result10:
Requirement(s):
Reference(s):
15.209 ANSI C63.10, clause 6.5 Requirement(s):
Reference(s):
RSS-Gen, section 6.13 ANSI C63.10, clause 6.5 Test passed Test not passed 6.6.2.1 Test equipment Type Semi-anechoic chamber (SAC) EMI test receiver TRILOG broadband antenna (SAC) Cable set SAC Designation SAC3 ESW 44 VULB 9162 RF cable(s) Manufacturer Albatross Projects Rohde & Schwarz Schwarzbeck Huber + Suhner Test software EMC32-MEB (V10.35) Rohde & Schwarz Inventory no. E00716 E00895 E00643 E00755 E01033 E01034 E01073 10 For information about measurement uncertainties see page 51. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 46 of 52 6.6.2.2 Limits Frequency
[MHz]
30 88 88 216 216 - 960 Above 960 Field strength Measurement distance
[V/m]
[dBV/m]
100 150 200 500 40.00 43.52 46.02 53.98
[m]
3 3 3 3 Table 16: General radiated emission limits 30 MHz according to 15.209 6.6.2.3 Test procedure The emissions from 30 MHz to 1 GHz are measured using the test procedure for radiated measurements as described in clause 5.4. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 47 of 52 6.6.2.4 Test results Performed by:
Andreas Menacher Date(s) of test:
February 27, 2019 Climatic conditions:
Ambient temperature 21 C Relative humidity 33%
Barometric pressure 978 hPa Test distance:
3 m 10 m
.. m EUT position11:
Position 1 Position 2 Position 3 Frequency range Step size IF Bandwidth Detector Measurement Time Preamplifier Prescan Final scan Prescan Final scan 30 MHz 1 GHz 30 kHz 120 kHz QP QP 1 s 1 s 20 dB Premeasurements showed that the spurious emissions of the EUT were higher when a tag was used. 11 Exploratory measurements are performed in all positions as indicated. However, the figures and result tables within this test report show the worst case position, only. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 48 of 52 Figure 13: Chart of emissions test from 30 MHz to 1 GHz with tag in position 2 with tag @ 3 m Frequency
(MHz) QuasiPeak
(dBV/m) Limit Margin
(dBV/m)
(dB) Meas. Time
(ms) Bandwidth Height Pol Azimuth
(kHz)
(cm)
(deg) Corr.
(dB/m) 39.240000 40.680000 83.970000 133.230000 134.070000 134.910000 135.720000 136.560000 528.840000 542.400000 555.960000 35.44 38.97 30.33 37.84 40.75 38.70 40.93 39.39 37.24 37.40 37.02 40.00 40.00 40.00 43.50 43.50 43.50 43.50 43.50 46.00 46.00 46.00 4.56 1000.0 1.03 1000.0 9.67 1000.0 5.66 1000.0 2.75 1000.0 4.80 1000.0 2.57 1000.0 4.11 1000.0 8.76 1000.0 8.60 1000.0 8.98 1000.0 120.000 120.000 120.000 120.000 120.000 120.000 120.000 120.000 120.000 120.000 120.000 100.0 V 100.0 V 117.0 V 167.0 H 156.0 H 173.0 H 190.0 H 190.0 H 162.0 H 145.0 H 129.0 H 311.0 349.0 320.0 278.0 274.0 274.0 270.0 270.0 218.0 227.0 235.0 13.1 13.5 8.5 9.5 9.5 9.4 9.4 9.4 19.8 20.0 20.4 Table 17: Chart of emissions test from 30 MHz to 1 GHz with tag in position 2 with tag @ 3 m EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 49 of 52 Level in dBV/m 7 Equipment calibration status Description EMI test receiver EMI test receiver Loop antenna EMI test receiver EMI test receiver Artificial mains network Artificial mains network Field probe TRILOG broadband antenna
(SAC3) ESW44 ESR7 HFH2-Z2 ESCI3 ESCI3 ESH2-Z5 ESH2-Z5 RF-R 400-1 VULB 9162 Modell number Serial number 101538 101059 Inventory number(s) Last calibration Next calibration E00895 2018-04 2019-04 E00739 2018-05 2019-05 871398/0050 E00060 2018-10 2020-10 100328 100013 893406/009 881362/037
---
E00552 2018-10 2020-10 E00001 2018-05 2020-05 E00005 2018-10 2020-10 E00004 E00270 Note 1 Note 2 9162-041 E00643 2018-03 2021-03 Shielded room P92007 B 83117 C 1109 T 211 E00107 Compact diagnostic chamber (CDC) VK041.0174 Semi-anechoic chamber
(SAC) SAC3 Cable set CDC RG214/U LCF12-50J LMR400 D62128-A502-
A69-2-0006 C62128-A520-
A643-x-0006
---
---
E00026 N/A N/A E00716 2018-03 2021-03 E00446 2018-04 2019-04 E01215 2018-04 2019-04 1718020006 E00920 2018-01 2019-01 Cable set of semi-anechoic chamber SAC3 RG214 Hiflex 171802007 E00921 2018-01 2019-01 SF104EA/11PC35
/11PC35/10000M M SF104E/11PC35/1 1PC35/2000MM SF104E/11PC35/1 1PC35/2000MM 501347/4EA E00755 2017-12 2018-12 507410/4E E01033 2017-12 2018-12 507411/4E E01034 2017-09 2018-09 Notes:
1: Only used for decoupling of support equipment. 2: Only used for relative measurements. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 50 of 52 8 Measurement uncertainties Description AC power line conducted emission Carrier frequency separation Number of hopping frequencies Time of occupancy (dwell time) Bandwidth tests Maximum conducted output power (conducted) Power spectral density (conducted) Conducted spurious emissions Radiated emissions in semi-anechoic chamber 9 kHz to 30 MHz 30 MHz to 300 MHz 300MHz to 1 GHz Radiated emissions in semi-anechoic chamber with RF absorbing material on the floor or fully anechoic room 1 GHz to 25 GHz Uncertainty 4.1 dB 5.0 %
2.0 %
1.5 dB 2.9 dB 2.9 dB 4.8 dB 5.4 dB 4.7 dB 4.5 dB k=
2 2 2 2 2 2 Comment:
The uncertainty stated is the expanded uncertainty obtained by multiplying the standard uncertainty by the coverage factor k. For a confidence level of 95 % the coverage factor k is 2. Test related measurement uncertainties have to be taken into consideration when evaluating the test results. All used test instrument as well as the test accessories are calibrated at regular intervals. EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 51 of 52 9 Revision history Revision Date Issued by Description of modifications 0 2019-04-15 Andreas Menacher First edition EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Page 52 of 52
1 | ext photos | External Photos | 771.56 KiB | July 25 2019 |
1 Annex B EUT pictures 1.1 List of Pictures Picture 1: EUT - top side.................................................................................................... 2 Picture 2: EUT - bottom side.............................................................................................. 2 Picture 3: RFID tag 13.56 MHz front view....................................................................... 3 Picture 4: RFID tag 13.56 MHz rear view ....................................................................... 3 Picture 5: Micro USB Cable ............................................................................................ 4 EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex B Page 1 of 4 Picture 1: EUT - top side Picture 2: EUT - bottom side EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex B Page 2 of 4 Picture 3: RFID tag 13.56 MHz front view Picture 4: RFID tag 13.56 MHz rear view EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex B Page 3 of 4 Picture 5: Micro USB Cable EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex B Page 4 of 4
1 | test setup photos | Test Setup Photos | 761.39 KiB | July 25 2019 |
1 Annex A Test setup 1.1 List of Pictures Picture 1: CDC, test setup radiated emission test 9 kHz -30 MHz (front view) .................. 2 Picture 2: CDC, test setup radiated emission test 9 kHz -30 MHz (rear view) ................... 2 Picture 3: SAC, radiated emission test 30 MHz -1 GHz (front view) .................................. 3 Picture 4: SAC, radiated emission test 30 MHz -1 GHz (rear view) ................................... 3 Picture 5: Test setup AC power line conducted emissions (front view) ............................. 4 Picture 6: Test setup AC power line conducted emissions (rear view) .............................. 4 Picture 7: EUT-position 1 ................................................................................................... 5 Picture 8: EUT-position 2 ................................................................................................... 5 Picture 9: EUT-position 3 ................................................................................................... 6 EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex A Page 1 of 6 Picture 1: CDC, test setup radiated emission test 9 kHz -30 MHz (front view) Picture 2: CDC, test setup radiated emission test 9 kHz -30 MHz (rear view) EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex A Page 2 of 6 Picture 3: SAC, radiated emission test 30 MHz -1 GHz (front view) Picture 4: SAC, radiated emission test 30 MHz -1 GHz (rear view) EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex A Page 3 of 6 Picture 5: Test setup AC power line conducted emissions (front view) Picture 6: Test setup AC power line conducted emissions (rear view) EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex A Page 4 of 6 Picture 7: EUT-position 1 Picture 8: EUT-position 2 EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex A Page 5 of 6 Picture 9: EUT-position 3 EMV TESTHAUS GmbH Gustav-Hertz-Strae 35 94315 Straubing Germany eGym GmbH RFID reader module eGym RFID Board v2 190129-AU01+W03 Annex A Page 6 of 6
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2019-07-25 | 13.56 ~ PowerOutput | DXX - Part 15 Low Power Communication Device Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2019-07-25
|
||||
1 | Applicant's complete, legal business name |
eGym GmbH
|
||||
1 | FCC Registration Number (FRN) |
0027467869
|
||||
1 | Physical Address |
Prannerstrasse 2 to 4
|
||||
1 |
Muenchen, N/A 80333
|
|||||
1 |
Germany
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
B******@phoenix-testlab.de
|
||||
1 | TCB Scope |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
2APOC
|
||||
1 | Equipment Product Code |
EGYMRFID02S
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
J******** B****
|
||||
1 | Telephone Number |
00499********
|
||||
1 | Fax Number |
00499********
|
||||
1 |
j******@egym.de
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DXX - Part 15 Low Power Communication Device Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | eGym RFID Board v2 | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Single Modular Approval | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
EMV TESTHAUS GmbH
|
||||
1 | Name |
R****** K****
|
||||
1 | Telephone Number |
49-94********
|
||||
1 | Fax Number |
49-94********
|
||||
1 |
r******@emv-testhaus.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 13.56000000 | 13.56000000 | 0.0100000000 % |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC