SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s

Bang & Olufsen Medicom a/s SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes.

Page 1 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 2 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 3 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 4 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 5 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 6 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 7 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 8 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 9 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 10 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 11 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 12 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 13 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 14 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 15 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 16 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 17 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 18 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 19 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Page 20 of SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s

EMC TEST REPORT
FCC 47 CFR Part 15B, ISED ICES-003 Issue 6
Electromagnetic compatibility - Unintentional radiators
Report Reference No. .................... : G0M-1708-6775-EF0115B-V01
Testing Laboratory ........................ : Eurofins Product Service GmbH
Address ............................................ : Storkower Str. 38c
15526 Reichenwalde
Germany
Accreditation .................................... :
A2LA Accredited Testing Laboratory, Certificate No.: 1983.01
FCC Test Firm Designation Number: DE0008
ISED Testing Laboratory site: 3470A-3
Applicant’s name ........................... : Phillips-Medisize A/S
Address ............................................ : Gimsinglundvej 20
7600 Struer
DENMARK
Test specification:
Standard ........................................... : 47 CFR Part 15 Subpart B
ISED ICES-003 Issue 6
ANSI C63.4:2014
Equipment under test (EUT):
Product description
SynfuGo, an automated personalized infusion pump
Model No.
SynfuGo
Additional Models
None
Hardware version
HDR ver 3.00
Firmware / Software version
01.05.00
Contains
FCC-ID: 2AAGY-SYNFUGO
Test result
Passed
IC:N/A
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 1 of 28
Version History
Version
Issue Date
Remarks
V01
2019-01-28
Initial Release
Revised by
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 3 of 28
REPORT INDEX
EQUIPMENT (TEST ITEM) DESCRIPTION
1.1
Photos – Equipment external
1.2
Photos – Equipment internal
1.3
Photos – Test setup
12
1.4
Supporting Equipment Used During Testing
14
1.5
Input / Output Ports
14
1.6
Operating Modes and Configurations
15
1.7
Test Equipment Used During Testing
16
1.8
Sample emission level calculation
17
RESULT SUMMARY
18
TEST CONDITIONS AND RESULTS
19
3.1
Test Conditions and Results – Radiated emissions
19
3.2
Test Conditions and Results – AC power line conducted emissions
25
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 4 of 28
1
Equipment (Test item) Description
Description
SynfuGo, an automated personalized infusion pump
Model
SynfuGo
Additional Models
None
Serial number
17090000001114 (EUT with special software for continuous vial
scan)
Serial number
17090000001077 (EUT with special software for continuous
motor operating)
Hardware version
HDR ver 3.00
Software / Firmware version
01.05.00
FCC-ID
2AAGY-SYNFUGO
IC
N/A
Power supply
3.7 VDC ( Rechargeable battery)
AC/DC-Adaptor
Model : ASSA54e-050100
Manufacturer : AQUIL STAR PRECISION INDUSTRIAL
Input : 100-240 V , 50/60 Hz
Output : 5 VDC
Manufacturer
Phillips-Medisize A/S
Gimsinglundvej 20
7600 Struer
DENMARK
Highest internal frequency
Fmax [MHz] = 2483
Device classification
Class B
Equipment type
Tabletop
Number of tested samples
2 (Both device were tested by the radiated emission. Operating
mode and configuration with maximum emission are represented
in this test report)
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 5 of 28
1.4
Supporting Equipment Used During Testing
Product
Type*
Device
Manufacturer
Model No.
AE
USB charging cable
AQUIL STAR PRECISION
INDUSTRIAL
ASDC527002
SIM
Laptop
Lenovo
ThinkPad W530
For Bluetooth
communication
SIM
Vials
For checking the RFID
scanning
Comments (e.g. serial no.)
*Note: Use the following abbreviations:
AE : Auxiliary/Associated Equipment, or
SIM : Simulator (Not Subjected to Test)
CABL : Connecting cables
1.5
Input / Output Ports
Port #
Name
Type*
Max. Cable
Length
Cable
Shielded
Comments (e.g. Cat. of Cable)
USB Micro B
DC
1m
Yes
Only for charging
*Note: Use the following abbreviations:
AC : AC power port
DC : DC power port
N/E : Non electrical
I/O : Signal input or output port
TP : Telecommunication port
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 14 of 28
1.6
Operating Modes and Configurations
Mode #
Description
Charging mode. No other function are active
Active mode ‘Scanning continues vials’ + Bluetooth communication with the Laptop
Active mode ‘Continues operating motor’ + Bluetooth communication with the Laptop
Configuration #
EUT Configuration
AC/DC Adaptor connected via USB to the EUT. Device is charging
Device powered up via battery. Vials vial mounted near EUT. On the EUT is running a
special mode for continues scan
Device powered up via battery. In the EUT is mounted a syringe. On the EUT is running
a special mode for continues operating motor.
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 15 of 28
1.7
Test Equipment Used During Testing
Measurement Software
Description
Manufacturer
Name
Version
EMC Test Software
Dare Instruments
Radimation
2016.1.10
Conducted emissions SR1
Description
Manufacturer
Model
Identifier
Cal. Date
Cal. Due
AMN
R&S
ESH2-Z5
EF00182
2017-01
2019-01
AMN
R&S
ESH3-Z5
EF00036
2017-01
2019-01
EMI Test Receiver
R&S
ESR7
EF00943
2017-07
2018-07
Cable
RG223/U
System Cal.
System Cal.
Radiated emissions AC6
Description
Manufacturer
Model
Identifier
Cal. Date
Cal. Due
TRILOG
Broadband
Antenna
Schwarzbeck
VULB 9162
EF00978
2016-11
2019-11
Double-Ridged
Guide Antenna
ETS-Lindgren
3117
EF00976
2016-03
2019-03
EMI Test Receiver
R&S
ESU26
EF00887
2017-07
2018-07
RF Cable
Huber & Suhner
Sucoflex 106
System Cal.
System Cal
RF Cable
Huber & Suhner
Multiflex 141
System Cal.
System Cal
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 16 of 28
1.8
Sample emission level calculation
The following is a description of terms and a sample calculation, as appears in the radiated emissions
data table. The numbers used in the calculation are for example only. There is no direct correlation to
the specific data taken for the product described in this document:
Reading:
This is the reading obtained on the spectrum analyzer in dBµV. Any external preamplifiers used are
taken into account through internal analyzer settings.
A.F.:
This is the antenna factor for the receiving antenna. It is a conversion factor, which converts electric
fields strengths to voltages, which can be measured directly on the spectrum analyzer. It is treated as
a loss in dB/,. Cable losses have been included with the A.F. to simplify the calculations. The antenna
factor is used in calculations as follows:
Reading on Analyser (dBµV) + A.F. (dB/m) = Net field strength (dBµV/m)
Net:
This is the net field strength measurement (as shown above).
Limit:
This is the FCC Class B radiated emission limit (in units of dBµV/m). The FCC limits are given in units
of µV/m. The following formula is used to convert the units of µV/m to dBµV/m:
Limit (dBµV/m) = 20*log (µV/m)
Margin:
This is the margin of compliance below the FCC limit. The units are given in dB. A negative margin
indicates the emission was below the limit. A positive margin indicates that the emission exceeds the
limit.
Example only:
Reading + AF
+21.5 dBµV + 26 dB/m
Net Reading
= 47.5 dBµV/m :
Net reading - FCC limit = Margin
47.5 dBµV/m - 57.0 dBµV/m
= -9.5 dB
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 17 of 28
2
Result Summary
FCC 47 CFR Part 15B, ISED ICES-003 Issue 6
Product Specific
Standard
Requirement – Test
Reference
Method
Result
47 CFR 15.109
ICES-003 Item 6.2
Radiated emissions
ANSI C 63.4
PASS
47 CFR 15.107
ICES-003 Item 6.1
AC power line conducted emissions
ANSI C63.4
PASS
Remarks
Remarks:
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 18 of 28
3
Test Conditions and Results
3.1
Test Conditions and Results – Radiated emissions
Radiated emissions acc. FCC 47 CFR 15.109 / ICES-003
Verdict: PASS
Laboratory Parameters:
Required prior to the test
During the test
Ambient Temperature
15 to 35 °C
21 °C
Relative Humidity
30 to 60 %
30 %
Test according referenced
standards
Reference Method
Sample is tested with respect to the
requirements of the equipment class
Equipment class
Test frequency range determined from
highest emission frequency
Highest emission frequency
Fully configured sample scanned over
the following frequency range
Frequency range
30 MHz to 13 GHz
Operating mode
1/2/3
Configuration
1/2/3
ANSI C63.4
Class B
Fmax [MHz] = 2483
Limits and results Class B
Frequency [MHz]
Quasi-Peak [dBµV/m] Result
Average [dBµV/m]
Result Peak [dBµV/m] Result
30 – 88
40
PASS
88 – 216
43.5
PASS
216 – 960
46
PASS
960 – 1000
54
PASS
> 1000
54
74
PASS
PASS
Comments:
Just the operation modes and power interface modes with the maximized emissions are represented in this
report.
The measurement are made on 10 m measurement distance , the results are corrected to 3 m
measurement distance
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 19 of 28
Test Procedure:
The test site is in accordance with ANSI C63-4:2014 requirements and is listed by FCC.
The measurement procedure is as follows:
Exploratory measurement:







The EUT was placed on a non-conductive table at a height of 0.8m.
The EUT and support equipment, if needed, were set up to simulate typical usage.
Cables, of type and length specified by the manufacturer, were connected to at least one port
of each type and were terminated by a device or simulating load of actual usage.
The antenna was placed at a distance of 3 or 10 m.
The received signal was monitored at the measurement receiver.
o Cables not bundled were manipulated within the range of likely arrangements to
produce the highest emission amplitude
o To maximize the suspected emissions the EUT is rotated 360 degrees. If the signal
exceeds the previous amplitude, go back to the corresponding azimuth and
manipulate the cables again for maximizing the emissions if possible.
o Move the antenna from 1 to 4m to maximize the suspected highest amplitude signal.
This procedure has to be performed in both antenna polarizations, horizontal and vertical.
The arrangement of the equipment with the maximum emission level is shown on the setup
picture at item 1.3.
Final measurement:





The EUT was placed on a 0.8 m non-conductive table at a 3 m distance from the receive
antenna. The antenna output was connected to the measurement receiver
A biconical antenna was used for the frequency range 30 – 200 MHz, a logarithmic periodical
antenna was used for the frequency range from 200 – 1000 MHz. Above one 1 GHz a Double
Ridged Broadband Horn antenna was used. The antenna was placed on an adjustable height
antenna mast
The EUT and cable arrangement were based on the exploratory measurement results
Emissions were maximized at each frequency by rotating the EUT and adjusting the receive
antenna height and polarization. The maximum values were recorded.
The test data of the worst-case conditions were recorded and shown on the next pages.
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 20 of 28
Radiated emissions according to FCC 15B
Project number: G0M-1708-6775
Applicant:
EUT Name:
Model:
Test Site:
Operator:
Test Conditions:
Antenna:
Measurement distance:
Mode:
Test Date:
Note:
Medicom Innovation Partner a/s
SynfuGo, an automated personalized infusion pump
SynfuGo
Eurofins Product Service GmbH
Mr. Colbasiuc
Tnom: 21°C, Unom: 120V/60Hz
Schwarzbeck VULB 9162, Vertical
10 m
2018-06-01
Index 1
65
FCC §15.109 Class B QP
RBW: 120 kHz, Vertical Max Peak
RBW: 120 kHz, Vertical Max Quasi Peak
60
55
50
Electrical Field (dBµV/m)
45
40
35
30
25
20
15
10
30 M
50 M
100 M
200 M
300 M
500 M
1G
Frequency (Hz)
Peak Number
Frequency
Quasi-Peak
64.08 MHz
112.05 MHz
170.04 MHz
175.824 MHz
181.95 MHz
224.28 MHz
35.9 dBµV/m
35.5 dBµV/m
26 dBµV/m
29.8 dBµV/m
26.6 dBµV/m
38.5 dBµV/m
Quasi-Peak
Limit
40 dBµV/m
43.5 dBµV/m
43.5 dBµV/m
43.5 dBµV/m
43.5 dBµV/m
46 dBµV/m
Quasi-Peak
Difference
-4.1 dB
-8.0 dB
-17.6 dB
-13.7 dB
-16.9 dB
-7.6 dB
Quasi-Peak
Status
Pass
Pass
Pass
Pass
Pass
Pass
Angle
Height
175 Degree
175 Degree
175 Degree
175 Degree
175 Degree
175 Degree
1.5 m
1.5 m
1.5 m
1.5 m
1.5 m
1.5 m
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 21 of 28
Radiated emissions according to FCC 15B
Project number: G0M-1708-6775
Applicant:
EUT Name:
Model:
Test Site:
Operator:
Test Conditions:
Antenna:
Measurement distance:
Mode:
Test Date:
Note:
Medicom Innovation Partner a/s
SynfuGo, an automated personalized infusion pump
SynfuGo
Eurofins Product Service GmbH
Mr. Colbasiuc
Tnom: 21°C, Unom: 120V/60Hz
Schwarzbeck VULB 9162, Horizontal
10 m
2018-06-01
Index 2
FCC §15.109 Class B QP
RBW: 120 kHz, Horizontal Max Peak
RBW: 120 kHz, Horizontal Max Quasi Peak
60
Electrical Field (dBµV/m)
50
40
30
20
10
30 M
50 M
100 M
200 M
300 M
500 M
1G
Frequency (Hz)
Peak Number
Frequency
Quasi-Peak
165.936 MHz
224.16 MHz
17.1 dBµV/m
32.3 dBµV/m
Quasi-Peak
Limit
43.5 dBµV/m
46 dBµV/m
Quasi-Peak
Difference
-26.4 dB
-13.7 dB
Quasi-Peak
Status
Pass
Pass
Angle
Height
110 Degree
110 Degree
3m
3m
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 22 of 28
Radiated emissions according to FCC 15B
Project number: G0M-1708-6775
Applicant:
EUT Name:
Model:
Test Site:
Operator:
Test Conditions:
Antenna:
Measurement distance:
Mode:
Test Date:
Note:
Medicom Innovation Partner a/s
SynfuGo device, an automated personalized infusion pump
SynfuGo
Eurofins Product Service GmbH
Mr. Meili
Tnom: 21°C, Unom: 120 V / 60 Hz
ETS-Lindgren 3117, Vertical
3m
2017-12-13
Index 5
FCC §15.109 Class B AV
RBW: 1 MHz, Vertical Max Peak
FCC §15.109 Class B PK
RBW: 1 MHz, Vertical Max Average
80
70
Electrical Field (dBµV/m)
60
50
40
30
20
10
1G
2G
3G
5G
10 G
13 G
Frequency (Hz)
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 23 of 28
Radiated emissions according to FCC 15B
Project number: G0M-1708-6775
Applicant:
EUT Name:
Model:
Test Site:
Operator:
Test Conditions:
Antenna:
Measurement distance:
Mode:
Test Date:
Note:
Medicom Innovation Partner a/s
SynfuGo device, an automated personalized infusion pump
SynfuGo
Eurofins Product Service GmbH
Mr. Meili
Tnom: 21°C, Unom: 120 V / 60 Hz
ETS-Lindgren 3117, Vertical
3m
2017-12-13
Index 6
FCC §15.109 Class B AV
RBW: 1 MHz, Vertical Max Peak
FCC §15.109 Class B PK
RBW: 1 MHz, Vertical Max Average
80
70
Electrical Field (dBµV/m)
60
50
40
30
20
10
1G
2G
3G
5G
10 G
13 G
Frequency (Hz)
Peak Number
Frequency
2,403 GHz
Peak
61,3 dBµV/m
Peak Limit
74 dBµV/m
Peak Difference
-12,6 dB
Peak Status
Pass
Angle
-29 Degree
Height
1m
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 24 of 28
3.2
Test Conditions and Results – AC power line conducted emissions
Conducted emissions acc. FCC 47 CFR 15.107 / ICES-003
Verdict: PASS
Laboratory Parameters:
Required prior to the test
During the test
Ambient Temperature
15 to 35 °C
21 °C
Relative Humidity
30 to 60 %
30 %
Test according referenced
standards
Reference Method
Fully configured sample scanned over
the following frequency range
Frequency range
ANSI C63.4
0.15 MHz to 30 MHz
Sample is tested with respect to the
requirements of the equipment class
Equipment class
Points of Application
Application Interface
AC Mains
LISN
Operating mode
Configuration
Class B
Limits and results Class B
Frequency [MHz]
Quasi-Peak [dBµV]
Result
Average [dBµV]
Result
0.15 to 5
66 to 56*
PASS
56 to 46*
PASS
0.5 to 5
56
PASS
46
PASS
5 to 30
60
PASS
50
PASS
Comments:
* Limit decreases linearly with the logarithm of the frequency.
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 25 of 28
Test Procedure:
The test site is in accordance with ANSI C63-4:2014 requirements and is listed by FCC.
The measurement procedure is as follows:
Exploratory measurement:








The EUT was placed on a non conductive table 0.8 m above the reference ground plane and
0.4 m away from the vertical conducting plane (ANSI C63.4: 2014 item 7.3.1)
The power cord that is normally supplied or recommended by the manufacturer was
connected to the LISN.
The distance between the outer edge of the EUT and the LISN shall be set to 0.8 m. A longer
power cord shall be bundled to this length (bundling shall not exceed 40 cm in length).
The LISN measurement port was connected to a measurement receiver
I/O cables were bundled not longer than 0.4 m
Measurement was performed in the frequency range 0.15 – 30MHz on each current-carrying
conductor
To maximize the emissions the cable positions were manipulated
The worst configuration of EUT and cables is shown on a test setup picture at item 1.3
Test Procedure:
Final measurement:






The EUT was placed on a non conductive table 0.8 m above the reference ground plane and
0.4 m away from the vertical conducting plane (ANSI C63.4: 2014 item 7.3.1)
The power cord that is normally supplied or recommended by the manufacturer was
connected to the LISN.
The distance between the outer edge of the EUT and the LISN shall be set to 0.8 m. A longer
power cord shall be bundled to this length (bundling shall not exceed 40 cm in length).
The LISN measurement port was connected to a measurement receiver
The EUT and cable arrangement were based on the exploratory measurement results
The test data of the worst-case conditions were recorded and shown on the next pages.
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 26 of 28
EMI voltage test in the ac-mains according to FCC 15B
Project number: G0M-1708-6775
Applicant:
EUT Name:
Model:
Test Site:
Operator:
Test Conditions:
LISN:
Mode:
Test Date:
Note:
Medicom Innovation Partner a/s
SynfuGo device, an automated personalized infusion pump
SynfuGo
Eurofins Product Service GmbH
Mr. Colbasiuc
Tnom: 21°C, Unom: 120V / 60Hz
ESH2-Z5 L
2017-12-07
Index 1
FCC §15.107 Class B AV
RBW: 9 kHz, Line 1 Max Peak
90
FCC §15.107 Class B QP
RBW: 9 kHz, Line 1 Max Average
RBW: 9 kHz, Line 1 Max Quasi Peak
80
70
60
Voltage (dBµV)
50
3 4
5 6
40
30
20
10
-10
-20
-30
150 k
300 k
500 k600 k
1M
2M
3M
5M
10 M
20 M
30 M
Frequency (Hz)
Peak Number
Frequency
Quasi-Peak
Quasi-Peak Limit
Quasi-Peak Status
65,78 dBµV
63,86 dBµV
63,16 dBµV
62,33 dBµV
61,9 dBµV
61,04 dBµV
59,94 dBµV
Quasi-Peak
Difference
-6,25 dB
-7,19 dB
-9,03 dB
-8,59 dB
-11,22 dB
-10,74 dB
-12,88 dB
154,05 kHz
194,1 kHz
211,2 kHz
233,25 kHz
245,85 kHz
272,4 kHz
311,1 kHz
59,53 dBµV
56,67 dBµV
54,13 dBµV
53,74 dBµV
50,68 dBµV
50,31 dBµV
47,06 dBµV
Peak Number
Frequency
154,05 kHz
194,1 kHz
211,2 kHz
233,25 kHz
245,85 kHz
272,4 kHz
311,1 kHz
Average
41,75 dBµV
39,26 dBµV
32,13 dBµV
37 dBµV
28,18 dBµV
32,72 dBµV
30,3 dBµV
Average Limit
55,78 dBµV
53,86 dBµV
53,16 dBµV
52,33 dBµV
51,9 dBµV
51,04 dBµV
49,94 dBµV
Average Difference
-14,03 dB
-14,6 dB
-21,03 dB
-15,34 dB
-23,72 dB
-18,33 dB
-19,64 dB
Average Status
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 27 of 28
EMI voltage test in the ac-mains according to FCC 15B
Project number: G0M-1708-6775
Applicant:
EUT Name:
Model:
Test Site:
Operator:
Test Conditions:
LISN:
Mode:
Test Date:
Note:
Medicom Innovation Partner a/s
SynfuGo device, an automated personalized infusion pump
SynfuGo
Eurofins Product Service GmbH
Mr. Colbasiuc
Tnom: 21°C, Unom: 120V / 60Hz
ESH2-Z5 N
2017-12-07
Index 2
FCC §15.107 Class B AV
RBW: 9 kHz, Neutral Max Peak
FCC §15.107 Class B QP
RBW: 9 kHz, Neutral Max Average
RBW: 9 kHz, Neutral Max Quasi Peak
80
70
60
2 3
Voltage (dBµV)
50
40
30
20
10
-10
150 k
300 k
500 k600 k
1M
2M
3M
5M
10 M
20 M
30 M
Frequency (Hz)
Peak Number
Frequency
Quasi-Peak
Quasi-Peak Limit
Quasi-Peak Status
65,78 dBµV
64,75 dBµV
63,86 dBµV
62,33 dBµV
61,78 dBµV
61,06 dBµV
Quasi-Peak
Difference
-6,37 dB
-9,07 dB
-7,16 dB
-8,33 dB
-12,4 dB
-10,73 dB
154,05 kHz
174,3 kHz
194,1 kHz
233,25 kHz
249,45 kHz
271,95 kHz
59,41 dBµV
55,69 dBµV
56,7 dBµV
54 dBµV
49,38 dBµV
50,33 dBµV
Peak Number
Frequency
154,05 kHz
174,3 kHz
194,1 kHz
233,25 kHz
249,45 kHz
271,95 kHz
Average
40,89 dBµV
35,29 dBµV
39,7 dBµV
37,48 dBµV
25,93 dBµV
34,59 dBµV
Average Limit
55,78 dBµV
54,75 dBµV
53,86 dBµV
52,33 dBµV
51,78 dBµV
51,06 dBµV
Average Difference
-14,89 dB
-19,46 dB
-14,16 dB
-14,85 dB
-25,85 dB
-16,46 dB
Average Status
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Test Report No.: G0M-1708-6775-EF0115B-V01
Eurofins Product Service GmbH
Storkower Str. 38c, D-15526 Reichenwalde, Germany
Page 28 of 28
Download: SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Mirror Download [FCC.gov]SYNFUGO SynfuGo is an automated personalized Infusion pump intended for intravenous administration of user-filled syringes. Test Report EMC Bang & Olufsen Medicom a/s
Document ID4188299
Application ID+XLWHyDZJywoZaxG2QIlqw==
Document DescriptionTest report EMC
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeTest Report
Display FormatAdobe Acrobat PDF - pdf
Filesize62.56kB (781976 bits)
Date Submitted2019-03-04 00:00:00
Date Available2019-03-04 00:00:00
Creation Date2019-03-01 09:36:29
Producing SoftwarePDFsharp 1.32.2608-g (www.pdfsharp.net) (Original: þÿ
Document Lastmod2019-03-01 09:57:26
Document TitleTest report EMC
Document CreatorMicrosoft® Word 2010

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