EMC Compliance Report CE+CALLIOPE mini · EMC Compliance Report, CE EMC Product Testing ......

FUJITSU TECHNOLOGY SOLUTIONS GmbH PRODUCT COMPLIANCE CENTER FUJITSU RESTRICTED

Document: CAL-16001-PR04-E01-01 of 22 and Attachment

EMC Compliance Report, CE

EMC Product Testing

Product Name: CALLIOPE mini

Model Name:

Document Number: CAL-16001-PR04-E01-01

Document Title: EMC Compliance Report CE+CALLIOPE mini

Test Result: Passed

Test Conclusion: Update Reference:

Additional result statements see chapter 'Result statement'.

-original report name: -original report number:

Update Reason: None

Accreditation References of Product Compliance Center:

BSMI Authorization No.: SL2-IN-E-3001; SL2-R1/R2-E-3001, SL2-A1-E-3001 FCC Registration No.: 90935 VCCI Registration No.: 1468, C-2052, C-2053, C-2054, T-173, T-176, T-177, R-1907, G-186 KC Registration No.: EU0061 Deutsche Akkreditierungsstelle DAkkS

Notice: This result relates only to the above mentioned EUT. Application to other systems of configurations is not permitted. The test configuration and the test results of the individual tests are shown on the following pages. Tests outside the scope of the accreditation are respectively marked out in the test coverage. This test report shall not be reproduced except in full without the written approval of the test laboratory.

Contact: Fujitsu Technology Solutions GmbH, Product Compliance Center, D-86199 Augsburg, Bürgermeister-Ulrich-Str. 100, Germany Phone +49 (821) 804-3693, http://ts.fujitsu.com/testcenter



1. Project Overview 1.1 Equipment under test


Model:

Product Category: E

Manufacturer Calliope

Trademark Not available

Serial No.:

Revision No.:

1.2 Applicant

Company Name: Calliope

Customer Name: Mr. Klaus Jürgen Buß

Address: Linienstraße 52

City: 10119 Berlin

Country: Germany

1.3 Documentation Approval

Release Date: Mar 17, 2017

Report prepared by: Andreas Trinkl Technician

Report reviewed by: Thomas ZitzelsbergerTest Engineer



2. Table of Content 1. Project Overview _____________________________________________________________________________ 2 1.1 Equipment under test ______________________________________________________________________ 2 1.2 Applicant __________________________________________________________________________________ 2 1.3 Documentation Approval ___________________________________________________________________ 2 2. Table of Content _____________________________________________________________________________ 3 3. Result Overview ______________________________________________________________________________ 4 3.1 Result Statement Details ___________________________________________________________________ 4 3.2 Remarks on the individual tests _____________________________________________________________ 4 4. Applicable Standards and References __________________________________________________________ 7 4.1 Standards _________________________________________________________________________________ 7 4.2 References _________________________________________________________________________________ 8 5. Certification statements ______________________________________________________________________ 9 5.1 Class B Device ______________________________________________________________________________ 9 6. General information about the test site ______________________________________________________ 10 6.1 Test facility _______________________________________________________________________________ 10 6.1.1 Test site Augsburg ________________________________________________________________________ 10 6.2 Measurement Procedures __________________________________________________________________ 10 6.2.1 Conducted emission _______________________________________________________________________ 10 6.2.2 Radiated emission (Semi Anechoic Chamber) ______________________________________________ 10 6.2.3 Harmonic current emission ________________________________________________________________ 11 6.2.4 Voltage fluctuations and flicker ____________________________________________________________ 11 6.2.5 Immunity testing _________________________________________________________________________ 11 6.2.6 Test equipment ___________________________________________________________________________ 12 6.2.7 Measurement uncertainty _________________________________________________________________ 12 7. EUT information ____________________________________________________________________________ 13 7.1 Component Description ____________________________________________________________________ 13 7.2 Operating condition _______________________________________________________________________ 13 7.3 Configuration description __________________________________________________________________ 13 7.3.1 Block Diagram ____________________________________________________________________________ 14 7.3.2 Pin out ___________________________________________________________________________________ 14 7.3.3 Configuration Sketch ______________________________________________________________________ 15 7.3.4 Dimension of EUT _________________________________________________________________________ 15 7.4 Product Rating Label ______________________________________________________________________ 15 7.5 Product Rating Label Special _______________________________________________________________ 15 7.6 Photos of EUT _____________________________________________________________________________ 16 8. List of attached test protocols ________________________________________________________________ 22 Attachments: Testprotocols



3. Result Overview 3.1 Result Statement Details Result Statement:

Discipline: Protocol No.: Result:

Radiated Disturbance Emission, CISPR 22, class B, 1-6 GHz, Mains Voltage: 5V, 0Hz, TP: EUT, LAN: unshielded, Radio: yes;

P4M1 Passed

Radiated Disturbance Emission, CISPR 22, class B, 30MHz - 1GHz, Mains Voltage: 5V, 0Hz, TP: EUT, LAN: unshielded, Radio: yes;

P1M1 Passed

Radiated Electromagnetic Field Immunity, IEC 61000-4-3, EN 301 489-17, Mains Voltage: 5V, 0Hz, TP: EUT, Positions: 2;Criteria A: normal function observed

P2M1 Passed

Power Frequency Magnetic Field Immunity, IEC 61000-4-8, Mains Voltage: 5V, 0Hz, TP: EUT, 1A/m;Criteria A: normal function observed

P3M1 Passed

Additional result explanation:

- Not applicable, see remarks on the individual test - Not performed, see remarks on the individual test - Passed*, see remarks on the individual test - Passed with modification, see necessary modification described in the corresponding short report

(e.g. P1M1, PxMx) in this report

3.2 Remarks on the individual tests Test and Remarks:

Radiated Disturbance Emission, CISPR 32, class B, 1-6 GHz, Mains Voltage: 230V, 50Hz, TP: EUT, LAN: unshielded, Radio: no

Already done.

Radiated Disturbance Emission, CISPR 32, class B, 30MHz - 1GHz, Mains Voltage: 230V, 50Hz, TP: EUT, LAN: unshielded, Radio: no

Already done.

Conducted Disturbances Emission, CISPR 22, class B, Mains Voltage: 230V, 50Hz, TP: AC/DC mains delivery state

EUT is DC powered.

Conducted Disturbances Emission, CISPR 22, class B, Mains Voltage: 230V, 50Hz, TP: shielded line, Datarate: maxMBit

No telecommunication port available.

Conducted Disturbances Emission, CISPR 22, class B, Mains Voltage: 230V, 50Hz, TP: unshielded line, Datarate: maxMBit




Conducted Disturbances Emission, CISPR 32, class B, Mains Voltage: 230V, 50Hz, TP: AC/DC mains delivery state

EUT is DC powered.

Conducted Disturbances Emission, CISPR 32, class B, Mains Voltage: 230V, 50Hz, TP: shielded line, Datarate: maxMBit


Conducted Disturbances Emission, CISPR 32, class B, Mains Voltage: 230V, 50Hz, TP: unshielded line, Datarate: maxMBit


Harmonic Current Emission, IEC 61000-3-2, Mains Voltage: 230V, 50Hz, Phases mains: 1, TP: AC mains, Classification: D, delivery state

EUT is DC powered.

Harmonic Current Emission, IEC 61000-3-2, Mains Voltage: 230V, 50Hz, Phases mains: 1, TP: AC mains, Classification: D, full configuration

EUT is DC powered.

Voltage Fluctuations and Flicker Emission, IEC 61000-3-3, Mains Voltage: 230V, 50Hz, TP: AC mains

EUT is DC powered.

Voltage Dips, Interruptions and Voltage Variation Immunity, IEC 61000-4-11, EN 301 489-1, Mains Voltage: 230V, 50Hz, PhaseConfig: Lx-N, Lx-Ly, All;, TP: AC mains

EUT is DC powered.

Voltage Dips, Interruptions and Voltage Variation Immunity, IEC 61000-4-11, EN55024, Mains Voltage: 230V, 50Hz, PhaseConfig: Lx-N, Lx-Ly, All;, TP: AC mains

EUT is DC powered.

Radiated Electromagnetic Field Immunity, IEC 61000-4-3, EN 301 489-17, Mains Voltage: 230V, 50Hz, TP: EUT, Positions: 2

Levels are adopted to "ETSI EN 301 489-17 V3.1.0 draft"

Conducted Disturbance Immunity, IEC 61000-4-6, Mains Voltage: 230V, 50Hz, TP: AC/DC mains, Start-Freq.: 0,15MHz, Stop-Freq.: 80,00MHz, 80% AM, 3,0V

EUT is DC powered.

Conducted Disturbance Immunity, IEC 61000-4-6, Mains Voltage: 230V, 50Hz, TP: signal line, Start-Freq.: 0,15MHz, Stop-Freq.: 80,00MHz, 80% AM, 3,0V



EUT is DC powered.

Electrical Fast Transient Immunity, IEC 61000-4-4, Mains Voltage: 230V, 50Hz, TP: AC mains, Level: ±2,0kV

EUT is DC powered.

Electrical Fast Transient Immunity, IEC 61000-4-4, Mains Voltage: 230V, 50Hz, TP: DC/signal line, Level: ±1,0kV

Cable length is < 3m.

Electrostatic Discharge Immunity, IEC 61000-4-2, full configuration, Mains Voltage: 230V, 50Hz, TP: EUT, Level air: ±2, 4, 6, 8kV, Level contact: ±2, 4kV

EUT is an open circuit without any special ESD countermeasures.

Surge Immunity, IEC 61000-4-5, Mains Voltage: 230V, 50Hz, TP: AC/DC mains, com.mode: ±0.5, 1.0, 2.0kV, diff.mode: ±0.5, 1.0kV

EUT is DC powered.

Surge Immunity, IEC 61000-4-5, Mains Voltage: 230V, 50Hz, TP: AC/DC mains, com.mode: ±0.5, 1.0, 2.2kV, diff.mode: ±0.5, 1.2kV

EUT is DC powered.

Surge Immunity, IEC 61000-4-5, Mains Voltage: 230V, 50Hz, TP: shielded signal line, com.mode: Surge ±0.5, 1.0kV, diff.mode: ±n.a.kV


Surge Immunity, IEC 61000-4-5, Mains Voltage: 230V, 50Hz, TP: unshielded signal line, com.mode: Surge ±0.5, 1.0kV, diff.mode: ±n.a.kV




4. Applicable Standards and References The test results show that the EUT as described in this test report is in compliance with the applicable standard referenced in this report.

4.1 Standards Standard: Title:

EN 301 489-1 V1.9.2 Electromagnetic compatibility and Radio spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 1: Common technical requirements

EN 301 489-17 V2.2.1 Radio spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) standard for radio equipment; Part 17: Specific conditions for 2,4 GHz wideband transmission systems, 5 GHz high performance RLAN equipment and 5,8 GHz Broadband Data Transmitting Systems

EN 301 489-17 V3.1.1 This standard is not accredidated. ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 17: Specific conditions for roadband Data Transmission Systems; Harmonised Standard covering the essential requirements of article 3.1(b) of the Directive 2014/53/EU

EN 301 489-1 V2.1.1 This standard is not accredidated. ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Harmonised Standard covering he essential requirements of article 3.1(b) of the Directive 2014/53/EU and the essential requirements of article 6 of the Directive 2014/30/EU; Part 1: Common technical requirements

AS/NZS CISPR32 :2015 Information technology equipment, Radio disturbance characteristics, Limits and methods of measurement

CISPR 32 :2015 Electromagnetic compatibility of multimedia equipment - Emission requirements

GB 9254 :2008 This standard is out of the accreditation scope. Information technology equipment, Radio disturbance characteristics, Limits and methods of measurement

EN 55032 :2015 Electromagnetic compatibility of multimedia equipment - Emission requirements

EN 62479 :2010 Assessment of the compliance of low power electronic and electrical equipment with the basic restrictions related to human exposure to electromagnetic fields (10 MHz to 300 GHz)

EN 55024 :2010 +A1:2015 Information technology equipment, Immunity characteristics, Limits and methods of measurement

CISPR 24 :2015 +A1:2015 International special comittee on radio interference, Information technology equipment-Immunity characteristics-Limits and methods of measurement

EN 61000-3-2 :2014 Electromagnetic compatibility (EMC), Part 3-2: Limits - Limits for harmonic current emissions, (equipment input current max 16 A per phase)

GB 17625.1 :2012 This standard is out of the accreditation scope. The limits for the harmonic current emissions caused by low-voltage electrical and electronic equipments (equipment input current=16A per phase)



Standard: Title:

EN 61000-3-3 :2013 Electromagnetic compatibility (EMC) - Part 3-3: Limits - Limitation of voltage changes, voltage fluctuations and flicker in public low-voltage supply systems, for equipment with rated current <16 A per phase and not subject to conditional connection

4.2 References References:

IEC 61000-4-4 :2012

IEC 61000-4-2 :2008

IEC 61000-4-8 :2009

IEC 61000-4-6 :2013

IEC 61000-4-5 :2014

CISPR 22 :2008

IEC 61000-4-11 :2004

IEC 61000-4-3 :2010-04

CISPR 32 :2015

IEC 61000-3-2 :2014

IEC 61000-3-3 :2013



5. Certification statements 5.1 Class B Device The test results reported herein apply only to the units actually tested and to substantially identical units.

The EUT was classified as a class B device.



6. General information about the test site 6.1 Test facility 6.1.1 Test site Augsburg

The test site is located at Fujitsu Technology Solutions GmbH, Bürgermeister – Ulrich Str. 100, 86199 Augsburg, Germany. This site consists of a 10 m semi anechoic chamber and a 3 m fully anechoic chamber for radiated emission testing, and of three shielded rooms for conducted emission testing. The 10 m semi anechoic chamber is conforming to the NSA-limits described in CISPR22, CISPR16 and ANSI C63.4-2003. The measurement facility was found to be in compliance with the requirements to Section 2.948 of the FCC Rules

Due to the Mutual Recognition Agreement (MRA) between the European Community and the USA the EMC test lab located as described above has been approved as a Conformity Assessment Body (CAB) designated by the EU member states through the conclusion of the MRA on the basis of Article 133 of the treaty.

6.2 Measurement Procedures 6.2.1 Conducted emission

The conducted emission was measured in a fully configured system. These measurements were performed according to the standards mentioned before. Line to ground radio noise voltages were measured at phase and neutral lines using an Artificial Mains Network (AMN). The other peripheral devices power cables were connected to the mains via a second LISN.

Preliminary scans were performed with the EMI-receiver detector set to PEAK and AVERAGE to determine the conducted EMI-profile of the EUT. During the final measurement, the noise frequencies producing emission with the highest level relative to the limit line, were measured again using the QUASI PEAK and AVERAGE detector of the EMI receiver.

The conducted emission was measured in the frequency range from 0,150 MHz to 30 MHz. The bandwidth of the EMI-Receiver was set to 9 kHz and the detector was set to “peak”. During the final measurement the detector was set to “average” respectively to “CISPR quasi-peak”.

The measurements were done on the phase and neutral line of the EUT’s power cable.

During the final measurement the cables and the equipment were placed and moved within the range of positions likely to find the maximum emission.

All measurements were done inside the shielded rooms.

For further data as well as the used power source for the EUT see enclosed test results.

6.2.2 Radiated emission (Semi Anechoic Chamber)

The radiated emission was measured in a fully configured system. These measurements were performed according to the standards mentioned before.

The radiated emission was measured in two parts:

� In the frequency range from 30 MHz to 1000 MHz, the bandwidth of the EMI-receiver was set to 120 kHz and the detector was set to “peak”. These tests were performed at a distance of 10 meters between antenna and EUT in a Semi Anechoic Chamber. In a first step preview tests with PEAK detector were performed to collect all critical frequencies. To find also the maximum emission during tests, the EUT was turned 360°, the receiving antenna was moved from 1 to 4 meters above ground plane and the polarization was changed from horizontal to vertical. During prescan all data in peak mode were accumulated automatically. During the final measurement the detector was set to “CISPR quasi-peak” and values above the acceptance line were measured automatically.



� In the frequency range 1 GHz to 6 GHz, the bandwidth of the EMI-receiver was set to 1 MHz and the detector was set to “peak”. These tests were performed at a distance of 3 meters between antenna and EUT in a Fully Anechoic Chamber. During prescan all data in peak mode were accumulated automatically. During the final measurement the detector was set to “CISPR average” and values above the acceptance line were verified automatically.

For both parts: After automatic tests manual verification took place the cables and the equipment were placed and moved within the range of position in order to find the maximum emission. The selected frequency points were those with less than 3 dB margin to the applicable limit.

Field strength calculation:

The field strength level is calculated automatically by the test system which uses the following equations:

LEVEL [dBμV/m] = Meter-Reading [dBμV] + TRANSDUCER [dB/m]

TRANSDUCER [dB/m] = Antenna factor [dB/m] + Cable Loss [dB]

Radiated disturbance emission is always performed with vertical and horizontal polarization.

In the final result table the worst cases values are listed.

In case if the result table contains only vertical or horizontal measurements that means the worst cases is within this polarization.

6.2.3 Harmonic current emission

The harmonic current emission was measured in the frequency range from 0,1 kHz - 2 kHz. The measurements were done on the phase and the neutral line of the EUT's power cord. The EUT has been tested in operating modes as recorded on the measurements protocols.

6.2.4 Voltage fluctuations and flicker The flickering values have been measured on the EUT's power cord. The observation time for each measurement cycle is 10 min (short time flicker). During this period all system routines are passed at least once.

6.2.5 Immunity testing

During immunity tests the EUT was set to continuous standard testing operation. The tests were carried out using test programs which could repeat the sequences of functions of equipment. In case of failure, the operator was able to recognize the type of failure by monitoring. For testing immunity to radiated field the tests were done in a semi-anechoic chamber and the effects were controlled on a monitor via a video camera and/or by a microphone.

Performance criteria:

� Criteria A: Normal performance within the specification limit

� Criteria B: Temporary degradation or loss of function or performance which is self recoverable

� Criteria C: Temporary degradation or loss of function or performance which requires operator intervention or system reset



6.2.6 Test equipment For detailed information of used test equipment and calibration due to the test equipment refer to the relevant protocols in the attachment.

6.2.7 Measurement uncertainty

The expanded uncertainty of the measurements is stated as the standard uncertainty of the measurement multiplied by the coverage factor k = 2, which for a normal distribution corresponds to a coverage probability of approximately 95%.

The standard uncertainty of the measurements has been determined in accordance to CISPR 16-4-2.

Measurement uncertainty is covered by UCispr.



7. EUT information EUT Receipt date: 13.02.2017

Condition of EUT: Ready for Test

No additional EUT description of tested EUT available.

7.1 Component Description ● Nordic nRF51822 Multi-protocol Bluetooth® 4.0 low energy/2.4GHz RF SoC 32-bit ARM Cortex M0 processor (16MHz)with 16kB RAM, 256kB Flash and Bluetooth Low Energy ● 5x5 LED Matrix Bildschirm ● Beschleunigungssensor, Kompass, Magnetometer (Bosch BMX055) ● MEMS Mikrofon ● DC Motortreiber (TI DRV8837) ● Piezo-Lautsprecher ● Programmierbare RGB LED (WS2812b) ● 2 programmierbare Taster ● Serielle Schnittstelle (USB + konfigurierbare Anschlüsse) ● PWM Ausgabe ● 4 Bananenstecker/Krokodilklemmen-Anschlüsse ● 4 Analoge Eingänge ● 8-11 Ein-/Ausgangsanschlüsse (je nach Softwarekonfiguration) ● SPI + I 2 C ● USB Micro B Anschluss (Programmierung und Stromversorgung) ● JST Batterieanschluss (3.3V) ● Bananen/Krokodilklemmen-Anschluss für 3.3V (Ausgang) ● 2 Grove Steckverbinder (I 2 C + Seriell/Analog) ● Flash-Programmspeicher (optional)

7.2 Operating condition Operating Condition: Customer specific test program

Operating system: No additional information available.

Additional operating conditions, configuration and comments see the attached test protocols.

7.3 Configuration description Component Manufacturer Model

Mini-Computer Calliope CALLIOPE mini



7.3.1 Block Diagram

7.3.2 Pin out



7.3.3 Configuration Sketch

Notebook EUT Battery holderUSB cable

7.3.4 Dimension of EUT

Not available.

7.4 Product Rating Label Not available.

7.5 Product Rating Label Special Not available.



7.6 Photos of EUT

Figure 1 : Front CALLIOPE mini



Figure 2 : Rear CALLIOPE mini



Figure 3 : Left CALLIOPE mini



Figure 4 : Right CALLIOPE mini



Figure 5 : CALLIOPE mini - USB Cable



Figure 6 : CALLIOPE mini - Battery holder



8. List of attached test protocols Description: Protocol No.:

Radiated Disturbance Emission, CISPR 22, class B, 1-6 GHz, Mains Voltage: 5V, 0Hz, TP: EUT, LAN: unshielded, Radio: yes

P4M1

Radiated Disturbance Emission, CISPR 22, class B, 30MHz - 1GHz, Mains Voltage: 5V, 0Hz, TP: EUT, LAN: unshielded, Radio: yes

P1M1

Radiated Electromagnetic Field Immunity, IEC 61000-4-3, EN 301 489-17, Mains Voltage: 5V, 0Hz, TP: EUT, Positions: 2

P2M1

Power Frequency Magnetic Field Immunity, IEC 61000-4-8, Mains Voltage: 5V, 0Hz, TP: EUT, 1A/m

P3M1


Document: CAL-16001-PR04-E01 P4M1 Page 1 of 6

Protocol: P4M1, Radiated Disturbance Emission Test Result: Passed

Result Statement:


Model:

Product Category:

Test Description: Radiated Disturbance Emission, CISPR 32, class B, 1-6 GHz Mains Voltage: 5V, 0Hz, TP: EUT, LAN: unshielded, Radio: yes

Tested by: Andreas Trinkl

Tested Date & Time: 24.02.2017 – 09:31

Operating conditions radio-frequency-test; bluetooth connection

Graphic resolution:

Test program: customer specific

Test configuration: Calliope supplied by batterie and USB

Comment: Test location: FAR

Humidity: 40 %

Temperature: 22 °C

Air Pressure: 955 hPa

Test methods: Default



Detailed Results

Common Information ProjectNr.: CAL-16001-PR04-E01; P4M1 Comments: USB and Battery 5V DC; Radio: yes

10 15 20 25 30 35 40 45 50 55 60 65 70 75 80

1G 2G 3G 4G 5G 6G

Leve

l in d

BµV

/m

Frequency in Hz

CISPR22 class B peak

CISPR22 class B AV

Final_Result

Frequency (MHz)

MaxPeak(dBµV/m)

Average (dBµV/m)

Limit(dBµV/m

Margin(dB)

Bandwidth(kHz)

Height(cm)

Pol Azimuth (deg)

Corr.(dB)

2129.938893 42.18 --- 70.00 27.82 1000.000 150.0 V 328.0 -24.42130.014613 --- 29.50 50.00 20.50 1000.000 150.0 V 325.0 -24.4 2795.136253 --- 30.08 50.00 19.92 1000.000 150.0 H 235.0 -20.52795.648253 41.72 --- 70.00 28.28 1000.000 150.0 H 238.0 -20.52950.565240 --- 29.99 50.00 20.01 1000.000 150.0 H 148.0 -20.7 2951.159520 41.97 --- 70.00 28.03 1000.000 150.0 H 148.0 -20.74186.633680 --- 33.40 54.00 20.60 1000.000 150.0 V 145.0 -16.74187.171080 44.95 --- 74.00 29.05 1000.000 150.0 V 145.0 -16.7 4570.606520 --- 34.64 54.00 19.36 1000.000 150.0 V 25.0 -15.54571.302680 46.29 --- 74.00 27.71 1000.000 150.0 V 25.0 -15.44769.097960 46.74 --- 74.00 27.26 1000.000 150.0 H 28.0 -14.1 4769.270920 --- 35.74 54.00 18.26 1000.000 150.0 H 25.0 -14.15348.927160 --- 36.02 54.00 17.98 1000.000 150.0 H 88.0 -12.25349.424360 47.14 --- 74.00 26.86 1000.000 150.0 H 85.0 -12.2 5878.957120 48.94 --- 74.00 25.06 1000.000 150.0 H -2.0 -11.35879.750000 --- 37.55 54.00 16.45 1000.000 150.0 H -5.0 -11.3



Table of used instruments Type Manufacturer Serial No. Last Cal. Next Cal.

Radiated Emission FAR 1GHz - 6GHz with Radio

Antenna Log-Periodic ROH - Rohde & Schwarz GmbH & Co. KG

100213 Oct 2016 Oct 2017

Fully Anechoic Room APS - Albatross Projects GmbH, Albatross Projects

Jan 2016 Jan 2019

Preamplifier MiTeq 1872179/1872183

Jun 2016 Jun 2017

Software ROH - Rohde & Schwarz GmbH & Co. KG

V 9.15

Spectrum Analyzer ROH - Rohde & Schwarz GmbH & Co. KG

100014 Jun 2016 Jun 2017

Notch Filter 1

Notch Filter 8

Tools used in 'P4M1'

Table of used peripherals N/A



Photos of test setup

Figure 1 : Test set up Radiated Disturbance Emission - front view



Figure 2 : Test set up Radiated Disturbance Emission - rear view



Figure 3 :



Protocol: P1M1, Radiated Disturbance Emission Test Result: Passed

Result Statement:


Model:

Product Category:

Test Description: Radiated Disturbance Emission, CISPR 32, class B, 30MHz - 1GHz Mains Voltage: 5V, 0Hz, TP: EUT, LAN: unshielded, Radio: yes


Tested Date & Time: 17.02.2017 – 07:11

Operating conditions stress-test; bluetooth connection

Graphic resolution:



Comment: Test location: SAC

Humidity: 30 %

Temperature: 24 °C

Air Pressure: 956 hPa




Detailed Results

Common Information ProjectNr.: CAL-16001-PR04-E01; P1M1 Comments: 230V/50Hz

0 5 10 15 20 25 30 35 40 45 50 55 60

30M 50 60 80 100M 200 300 400 500 800 1G

Leve

l in d

BµV

/m

Frequency in Hz

Full Spectrum

EN55022_B



Final_Result Frequency

(MHz) QuasiPeak(dBµV/m)

Limit (dBµV/m)

Margin(dB)

Bandwidth(kHz)

Height(cm)

Pol Azimuth (deg)

Corr.(dB)

38.220000 22.11 30.00 7.89 120.000 115.0 V 28.0 14.9 43.320000 16.32 30.00 13.68 120.000 100.0 V 3.0 12.2

110.190000 17.02 30.00 12.98 120.000 145.0 V 307.0 13.3144.000000 20.96 30.00 9.04 120.000 400.0 H 184.0 12.4 175.980000 15.51 30.00 14.49 120.000 400.0 H 206.0 11.2 482.700000 16.69 37.00 20.31 120.000 154.0 V 294.0 20.3667.170000 19.85 37.00 17.15 120.000 400.0 V 293.0 22.7 991.960000 23.22 37.00 13.78 120.000 400.0 H 209.0 25.9


Radiated Emission SAC <1GHz ( R-1907)

EMI Receiver ROH - Rohde & Schwarz GmbH & Co. KG

100672 Jun 2016 Jun 2017

Antenna BiLog Chase, Chase 2790 Sep 2016 Sep 2018

Cable CP1X1-X1 (30-MHz -2GHz)

Jun 2016 Jun 2017

Semi Anechoic Chamber (R-1907)

Albatross Projects GmbH, Albatross Projects

Mar 2015 Mar 2018


V 9.15






Figure 1 : Test set up Radiated Disturbance Emission - front view



Figure 2 : Test set up Radiated Disturbance Emission - rear view



Protocol: P2M1, Radiated Electromagnetic Field Immunity Test Result: Passed

Result Statement: Criteria A: normal function observed


Model:

Product Category:

Test Description: Radiated Electromagnetic Field Immunity, IEC 61000-4-3, EN 301 489-17Mains Voltage: 5V, 0Hz, TP: EUT, Positions: 2


Tested Date & Time: 20.02.2017 – 08:06


Graphic resolution:



Comment: Test location: CDC1

Humidity: %

Temperature: °C

Air Pressure: hPa




Detailed Results Identification (Job Number) CAL-16001-PR04-E01; P2M1

Frequency Range Test Level Modulation

80 MHz - 6 GHz 3 V/m 1 kHz, 80% AM

EUT position

Antenna polarity

Performance- criteria Comments

Front Horizontal A Front Vertical A Rear Horizontal A Rear Vertical A



EMC32 Report Common Information Project No.: CAL-16001-PR04-E01; P2M1 Comments: front side

EMS Auto Test Template: EMS Auto Test EN 301 489-17 V2.2.1 2012-9 [EMS Radiated] EMS Auto Test Method: EUT Test

Test Method: No Subrange EMS Scan Template Sensor Positions 1 80MHz - 2,2GHz EMS Scan EN 301 489-1 - 2 2,2GHz - 3GHz EMS Scan EN 301 489-1 - 3 3GHz - 6GHz EMS Scan EN 301 489-1 -

Loop Settings: Priority Loop Parameter Range Steps 1 Test Frequency - - 2 Polarization H,V - 3 Auto Test Subrange - -

EMS Scan Template: EMS Scan EN 301 489-1 [EMS Radiated] Hardware Setup: EMS radiated\EMS rad 80M-6G Level On: Substitution Method: Fujitsu 2017-02-03\FU_80M_6G_EN61ED3

Subrange Step Width Level Modulation Dwell Time80MHz - 2,2GHz 1% LOG 3V/m AM: 80,0%; 1,0kHz 3s 2,2GHz - 3GHz 1% LOG 3V/m AM: 80,0%; 1,0kHz 3s 3GHz - 6GHz 1% LOG 3V/m AM: 80,0%; 1,0kHz 3s



0

0,5 1

1,5 2

2,5 3

3,5 4

4,5 5

80M100M 200 300 400 500 800 1G 2G 3G 4G 5G 6G

Imm

Lev

el in

V/m

Frequency in Hz

TargetLevel

6,000000000 GHz3,008 V/m



EMC32 Report Common Information Project No.: CAL-16001-PR04-E01; P2M1rear Comments: rear side

EMS Auto Test Template: EMS Auto Test EN 301 489-17 V2.2.1 2012-9 [EMS Radiated] EMS Auto Test Method: EUT Test

Test Method: No Subrange EMS Scan Template Sensor Positions 1 80MHz - 2,2GHz EMS Scan EN 301 489-1 - 2 2,2GHz - 3GHz EMS Scan EN 301 489-1 - 3 3GHz - 6GHz EMS Scan EN 301 489-1 -

Loop Settings: Priority Loop Parameter Range Steps 1 Test Frequency - - 2 Polarization H,V - 3 Auto Test Subrange - -

EMS Scan Template: EMS Scan EN 301 489-1 [EMS Radiated] Hardware Setup: EMS radiated\EMS rad 80M-6G Level On: Substitution Method: Fujitsu 2017-02-03\FU_80M_6G_EN61ED3

Subrange Step Width Level Modulation Dwell Time80MHz - 2,2GHz 1% LOG 3V/m AM: 80,0%; 1,0kHz 3s 2,2GHz - 3GHz 1% LOG 3V/m AM: 80,0%; 1,0kHz 3s 3GHz - 6GHz 1% LOG 3V/m AM: 80,0%; 1,0kHz 3s



0

0,5 1

1,5 2

2,5 3

3,5 4

4,5 5

80M100M 200 300 400 500 800 1G 2G 3G 4G 5G 6G

Imm

Lev

el in

V/m

Frequency in Hz

TargetLevel

6,000000000 GHz3,007 V/m


Radiated Immunity CDC < 2GHz

Amplifier Bonn Elektronik GmbH, Bonn Elektronik

128904A Jun 2016 Jun 2017


128904A


128904A

Antenna Log-Periodic ROH - Rohde & Schwarz GmbH & Co. KG

100128

Radiated Immunity CDC > 2GHz

Compact Diagnostic Chamber

APS - Albatross Projects GmbH, Albatross Projects


128904B Jun 2015 Jul 2017

Antenna Horn ROH - Rohde & Schwarz GmbH & Co. KG

100464

Power Meter ROH - Rohde & Schwarz GmbH & Co. KG

102428 Jun 2016 Jun 2017



Type Manufacturer Serial No. Last Cal. Next Cal.

Power Sensor ROH - Rohde & Schwarz GmbH & Co. KG

111539 Jun 2016 Jun 2017

Power Sensor ROH - Rohde & Schwarz GmbH & Co. KG

111540 Jun 2016 Jun 2017

Signal Generator ROH - Rohde & Schwarz GmbH & Co. KG

106590 Jul 2016 Jul 2018


V 9

E-Field Probe ETS - ETS LINDGREN 00135680 Jun 2015 Jun 2017




Figure 1 : Test set up Radiated Electromagnetic Field Immunity - front view



Figure 2 : Test set up Radiated Electromagnetic Field Immunity - rear view



Protocol: P3M1, Power Frequency Magnetic Field Immunity Test Result: Passed

Result Statement: Criteria A: normal function observed


Model:

Product Category:

Test Description: Power Frequency Magnetic Field Immunity, IEC 61000-4-8 Mains Voltage: 5V, 0Hz, TP: EUT, 1A/m


Tested Date & Time: 23.02.2017 – 11:13


Graphic resolution:



Comment: Test location: EMC Lab

Humidity: %

Temperature: °C

Air Pressure: hPa




Detailed Results Identification (Job Number) CAL-16001-PR04-E01; P3M1

Field strength [A/m]

Test frequency [Hz]

1 50

Axis Performance- criteria Comments

X A Y A Z A

Remark: EUT supply voltage frequency and magnetic field frequency are identical.


Magnetic Field

Magnetic Field Test Coil Schaffner, Schaffner -/-

Generator Magnetic Field Fujitsu Technology Solutions 0001



YX Z




Figure 1 : Test set up for Immunity to power frequency magnetic field - x axis



Figure 2 : Test set up for Immunity to power frequency magnetic field - y axis



Figure 3 : Test set up for Immunity to power frequency magnetic field - z axis

EMC Compliance Report CE+CALLIOPE mini · EMC Compliance Report, CE EMC Product Testing ......

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