Test Report NII DFS

Zebra Technologies Corporation TC77HL Touch computer UZ7TC77HL UZ7TC77HL tc77hl

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FCC DFS TEST REPORT

Report No. : FZ872506

FCC DFS TEST REPORT

FCC ID Equipment Brand Name Model Name Applicant
Manufacturer
Standard

: UZ7TC77HL : Touch computer : Zebra : TC77HL : Zebra Technologies Corporation
1 Zebra Plaza Holtsville, NY 11742 : Zebra Technologies Corporation
1 Zebra Plaza Holtsville, NY 11742 : FCC Part 15 Subpart E

The product was received on Jul. 25, 2018 and testing was started from Jul. 31, 2018 and completed on Aug. 01, 2018. We, SPORTON INTERTIONAL INC. EMC & Wireless Communications Laboratory, would like to declare that the tested sample has been evaluated in accordance with the procedures given in FCC Part 15 Subpart E and shown compliance with the applicable technical standards.
The report must not be used by the client to claim product certification, approval, or endorsement by TAF or any agency of government.
The test results in this report apply exclusively to the tested model / sample. Without written approval of SPORTON INTERTIONAL INC. EMC & Wireless Communications Laboratory, the test report shall not be reproduced except in full.

Approved by: Jones Tsai
SPORTON INTERTIONAL INC. EMC & Wireless Communications Laboratory
No. 52, Huaya 1st Rd., Guishan Dist., Taoyuan City, Taiwan (R.O.C.)

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Report No. : FZ872506

Table of Contents
History of this test report.................................................................................................................................3 Summary of Test Result...................................................................................................................................4 1 General Description ................................................................................................................................... 5
1.1 Feature of Equipment Under Test .................................................................................................... 5 1.2 Product Specification of Equipment Under Test...............................................................................6 1.3 Modification of EUT .......................................................................................................................... 6 1.4 Testing Site ....................................................................................................................................... 6 1.5 Applied Standards ............................................................................................................................ 7 1.6 Support Unit used in test configuration and system ......................................................................... 7 2 Requirements and Parameters for DFS Test...........................................................................................8 2.1 Summary of Dynamic Frequency Selection Test ............................................................................. 8 2.2 Applicability of DFS Requirements ................................................................................................... 9 2.3 Interference Threshold values, Master or Client incorporating In-Service Monitoring ...................10 2.4 DFS Response requirement values................................................................................................10 2.5 Short Pulse Radar Test Waveforms ...............................................................................................11 3 Calibration Setup and DFS Test Results ............................................................................................... 12 3.1 Calibration of Radar Waveform ......................................................................................................12 3.2 In-Service Monitoring: Channel Move Time, Channel Closing Transmission Time and
Non-Occupancy Period...................................................................................................................14 4 List of Measuring Equipment..................................................................................................................20 Appendix A. Setup Photographs

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Report No. : FZ872506

History of this test report

Report No. FZ872506

Version 01

Description Initial issue of report

Issue Date Sep. 19, 2018

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Report No. : FZ872506

Summary of Test Result

Report Ref Std. Clause Clause

Test Items

Result (PASS/FAIL)

Remark

Channel Move Time

Pass

0.6352 sec

3.2

7.8.3

Channel Closing Transmission time

Pass

<200ms + 50.8 ms (aggregate)

Non-Occupancy Period and Client Beacon Test

Pass

No transmission or Beacons occurred

Note: Since the product is client without radar detection function, only Channel Move Time, Channel Closing Transmission Time and Non-Occupancy Period Test are required to be performed.

Reviewed by: Joseph Lin Report Producer: Natasha Hsieh

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Report No. : FZ872506

1 General Description
1.1 Feature of Equipment Under Test

Product Feature

Equipment

Touch computer

Brand Name Model Name

Zebra TC77HL

FCC ID

UZ7TC77HL

EUT supports Radios application

GSM/EGPRS/WCDMA/HSPA/LTE/NFC/GNSS WLAN 11a/b/g/n HT20/HT40 WLAN 11ac VHT20/VHT40/VHT80 Bluetooth BR/EDR/LE

HW Version SW Version

DV Android version 8.1.0

FW Version

91-09-14.00-OG-U00-STD

MFD EUT Stage

06JUL18 Engineering Sample

Remark: The above EUT's information was declared by manufacturer.

Specification of Accessories

AC Adapter

Brand Name Zebra Part Number

4 PIN DC power cable

Brand Name Zebra Part Number

AC Power cable

Brand Name Zebra Part Number

Snap-On USB/Charge Cable Brand Name Zebra Part Number

Snap-On Charging Cable Cup Brand Name Zebra Part Number

Battery 1

Brand Name Zebra Part Number

Battery 2 (Falcon 1S3P Battery Brand Name Zebra Pack)

Part Number

Battery 3

Brand Name Symbol Part Number

Earphone 1

Brand Name Zebra Part Number

Earphone 2

Brand Name Zebra Part Number

Snap-on 3.5MM Audio Jack Adapter

Brand Name Symbol Part Number

3.5mm Jack 43"(1.1m) Standard Cable

Brand Name Zebra Part Number

Holster

Brand Name Zebra Part Number

Rigid Holster

Brand Name Zebra Part Number

PWR-BUA5V16W0WW CBL-DC-383A1-01 50-16000-182R CBL-TC7X-USB1-01 CHG-TC7X-CBL1-01 BT-000318-01 BT-000318-51
82-171249-02 HDST-35MM-PTVP-01 HS2100-OTH ADP-TC7X-AUD35-01
CBL-HS2100-3MS1-01
SG-TC7X-HLSTR1-02 SG-TC7X-RHLSTR1-01

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1.2 Product Specification of Equipment Under Test

Product Specification subjective to this standard

DFS Function

Client without radar detection function

Tx/Rx Channel Frequency Range

5260 MHz ~ 5320 MHz 5500 MHz ~ 5720 MHz

802.11a

802.11n HT20

EUT support WLAN function

802.11n HT40 802.11ac VHT20

802.11ac VHT40

802.11ac VHT80

Type of Modulation

802.11a/n : OFDM (BPSK / QPSK / 16QAM / 64QAM) 802.11ac : OFDM (BPSK / QPSK / 16QAM / 64QAM / 256QAM)

1.3 Modification of EUT
No modifications are made to the EUT during all test items.

1.4 Testing Site

Test Site Test Site Location Test Site No.

SPORTON INTERNATIONAL INC. No.52, Huaya 1st Rd., Guishan Dist., Taoyuan City, Taiwan (R.O.C.) TEL: +886-3-327-3456 FAX: +886-3-328-4978
Sporton Site No.
DFS02-HY

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1.5 Applied Standards

According to the specifications of the manufacturer, the EUT must comply with the requirements of the following standards:  FCC Part 15 Subpart E  FCC KDB 905462 D02 UNII DFS Compliance Procedures New Rules v02  FCC KDB 905462 D03 UNII Clients Without Radar Detection New Rules v01r02 Remark: All test items were verified and recorded according to the standards and without any deviation during the test.

1.6 Support Unit used in test configuration and system

Item Equipment 1. WLAN AP

Trade Name Model Name Motorola AP-7532B

2. Notebook acer

N15C1

FCC ID

Data Cable

Power Cord

UZ7AP7532 PPD-QCNFA435

FW: WiNG v5.8 N/A

Unshielded, 1.8 m
AC I/P: Unshielded, 1.2 m DC O/P: Shielded, 1.8 m

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2 Requirements and Parameters for DFS Test
2.1 Summary of Dynamic Frequency Selection Test

Bandwidth and Channel

Test Items

80MHz 5530MHz (CH106)

Report No. : FZ872506 Limit

80MHz (CH106) 5530MHz

Channel Move Time
Channel Closing Transmission time
Non-Occupancy Period and Client Beacon Test

10 sec
200 ms + aggregate of 60 ms over
remaining 10 s period
30 minutes

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2.2 Applicability of DFS Requirements
EUT is client and operates as client without radar detection function.

Report No. : FZ872506

Table 1: Applicability of DFS Requirements Prior to Use of a Channel

Requirement Non-Occupancy Period

Master Yes

Operational Mode
Client Without Radar
Detection
Not required

Client With Radar
Detection
Yes

DFS Detection Threshold

Yes

Not required

Yes

Channel Availability Check Time

Yes

Not required

Not required

U-NII Detection Bandwidth

Yes

Not required

Yes

Table 2: Applicability of DFS requirements during normal operation

Requirement
DFS Detection Threshold Channel Closing Transmission Time
Channel Move Time U-NII Detection Bandwidth
Client Beacon Test

Master
Yes Yes Yes Yes N/A

Operational Mode Client
Without Radar Detection Not required Yes Yes Not required Yes

Client With Radar Detection
Yes Yes Yes Yes Yes

Operational Mode

Additional requirements for devices with multiple bandwidth modes

Master or Client With Radar Detection

Client Without Radar Detection

U-NII Detection Bandwidth and Statistical Performance Check

All BW modes must be tested

Not required

Channel Move Time and Channel Closing Transmission Time

Test using widest BW mode available

Test using the widest BW mode available
for the link

All other tests

Any single BW mode

Not required

Note

Frequencies selected for statistical performance check (Section 7.8.4) should include

several frequencies within the radar detection bandwidth and frequencies near the edge of

the radar detection bandwidth. For 802.11 devices it is suggested to select frequencies in

each of the bonded 20 MHz channels and the channel center frequency.

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2.3 Interference Threshold values, Master or Client incorporating In-Service Monitoring

Maximum Transmit Power

Value (see notes 1 and 2)

 200 milliwatt

-64 dBm

< 200 milliwatt

-62 dBm

Note 1: This is the level at the input of the receiver assuming a 0 dBi receive antenna.

Note 2: Throughout these test procedures an additional 1 dB has been added to the amplitude of the

test transmission waveforms to account for variations in measurement equipment. This will ensure

that the test signal is at or above the detection threshold level to trigger a DFS response.

The radar Detection Threshold, lowest antenna gain is the parameter of Interference radar DFS detection threshold, The Interference Detection Threshold is the ( -62dBm) + (0) [dBi]+ 1 dB= -61 dBm.

2.4 DFS Response requirement values

Parameter

Value

Non-occupancy period

Minimum 30 minutes

Channel Availability Check Time

60 seconds

Channel Move Time

10 seconds See Note 1.

Channel Closing Transmission Time

200 milliseconds + an aggregate of 60 milliseconds over

remaining 10 second period. See Notes 1 and 2.

U-NII Detection Bandwidth

Minimum 100% of the 99% power bandwidth

See Note 3.

Note 1: The instant that the Channel Move Time and the Channel Closing Transmission Time begins

is as follows:

· For the Short pulse radar Test Signals this instant is the end of the Burst.

· For the Frequency Hopping radar Test Signal, this instant is the end of the last radar Burst

generated.

· For the Long Pulse radar Test Signal this instant is the end of the 12 second period defining the

radar transmission.

Note 2: The Channel Closing Transmission Time is comprised of 200 milliseconds starting at the

beginning of the Channel Move Time plus any additional intermittent control signals required to

facilitate Channel changes (an aggregate of 60 milliseconds) during the remainder of the 10 second

period. The aggregate duration of control signals will not count quiet periods in between

transmissions.

Note 3: During the U-NII Detection Bandwidth detection test, radar type 0 is used and for each

frequency step the minimum percentage of detection is 90%. Measurements are performed with no

data traffic.

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2.5 Short Pulse Radar Test Waveforms

As the EUT is a Client Device with no Radar Detection, only one type radar pulse is required for the

testing. Radar Pulse type 0 was used in the evaluation of the Client device for the purpose of

measuring the Channel Move Time and the Channel Closing Transmission Time.

Radar Type

Pulse Width (µ sec)

PRI (µsec)

Number of Pulses

Minimum Percentage of
Successful Detection

Minimum Trials

0

1

1428

18

60%

30

Test A

1

1

Test B

60%

30

2

1-5

150-230

3

6-10

200-500

4

11-20

200-500

Aggregate (Radar Types 1-4)

23-29 16-18 12-16

60%

30

60%

30

60%

30

80%

120

Test A: 15 unique PRI values randomly selected from the list of 23 PRI values in Table 5a Test B: 15 unique PRI values randomly selected within the range of 518-3066 sec, with a minimum increment of 1 sec, excluding PRI values selected in Test A
A minimum of 30 unique waveforms are required for each of the short pulse radar types 2 through 4. For short pulse radar type 1, the same waveform is used a minimum of 30 times. If more than 30 waveforms are used for short pulse radar types 2 through 4, then each additional waveform must also be unique and not repeated from the previous waveforms.
If more than 30 waveforms are used for Short Pulse Radar Type 1, then each additional waveform is generated with Test B and must also be unique and not repeated from the previous waveforms in Tests A or B.
The aggregate is the average of the percentage of successful detections of short pulse radar types 1-4.

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3 Calibration Setup and DFS Test Results
3.1 Calibration of Radar Waveform

3.1.1 Radar Waveform Calibration Procedure
The Interference Radar Detection Threshold Level is (-62dBm) + (0) [dBi]+ 1 dB= -61dBm that had been taken into account the output power range and antenna gain. The following equipment setup was used to calibrate the radiated Radar Waveform. A vector signal generator was utilized to establish the test signal level for radar type 0. During this process there were no transmissions by either the Master or Client Device. The spectrum analyzer was switched to the zero span (Time Domain) at the frequency of the Radar Waveform generator. Peak detection was used. The spectrum analyzer resolution bandwidth (RBW) and video bandwidth (VBW) were set to 3 MHz to measure the type 0 radar waveform. The spectrum analyzer had offset to compensate and RF cable loss. The vector signal generator amplitude was set so that the power level measured at the spectrum analyzer was (-62dBm) + (0) [dBi]+ 1 dB= -61 dBm. Capture the spectrum analyzer plots on short pulse radar waveform.

3.1.2 Conducted Setup

3.1.3 Calibration Deviation
There is no deviation with the original standard.

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3.1.4 Radar Waveform Calibration Result
<80MHz / 5530MHz> Radar Type 0 Radar / DFS detection threshold level and the burst of pulses on the Channel frequency

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3.2 In-Service Monitoring: Channel Move Time, Channel Closing Transmission Time and Non-Occupancy Period
3.2.1 Limit of In-Service Monitoring
The EUT has In-Service Monitoring function to continuously monitor the radar signals, If radar is detected, it must leave the channel (Shutdown). The Channel Move Time to cease all transmissions on the current Channel upon detection of a Radar Waveform above the DFS Detection Threshold within 10 sec. The total duration of Channel Closing Transmission Time is comprised of 200 milliseconds starting at the beginning of the Channel Move Time plus any additional intermittent control signals required to facilitate Channel changes (an aggregate of 60 milliseconds) during the remainder of the 10 second period. The aggregate duration of control signals will not count quiet periods in between transmissions. Non-Occupancy Period time is 30 minute during which a Channel will not be utilized after a Radar Waveform is detected on that Channel. The non-associated Client Beacon Test is during the 30 minutes observation time. The EUT should not make any transmissions in the DFS band after EUT power up.

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3.2.2 Test Procedures

1. The radar pulse generator is setup to provide a pulse at frequency that the Master and Client are operating. A type 0 radar pulse with a 1us pulse width and a 1428 us PRI is used for the testing.
2. The vector signal generator is adjusted to provide the radar burst (18 pulses) at a level of approximately -62dBm at the antenna of the Master device.
3. A trigger is provided from the pulse generator to the DFS monitoring system in order to capture the traffic and the occurrence of the radar pulse.
4. A U-NII device operating as a Client Device will associate with the Master at Channel. The MPEG file "TestFile.mpg" specified by the FCC is streamed from the "file computer" through the Master to the Client Device and played in full motion video using Media Player Classic Ver. 6.4.8.6 in order to properly load the network for the entire period of the test.
5. When a radar Burst with a level equal to the DFS Detection Threshold + 1dB is generated on the Operating Channel of the U-NII device. At time T0 the Radar Waveform generator sends a Burst of pulse of the radar waveform at Detection Threshold + 1dB.
6. Observe the transmissions of the EUT at the end of the radar Burst on the Operating Channel. Measure and record the transmissions from the EUT during the observation time (Channel Move Time). One 12 seconds plot is reported for the Short Pulse Radar Types 0. The plot for the Short Pulse Radar Types start at the end of the radar burst. The Channel Move Time will be calculated based on the zoom in 600ms plot of the Short Pulse Radar Type.
7. Measurement of the aggregate duration of the Channel Closing Transmission Time method. With the spectrum analyzer set to zero span tuned to the center frequency of the EUT operating channel at the radar simulated frequency, peak detection, and max hold, the dwell time per bin is given by: Dwell (0.4ms)= S (12000ms) / B (30000); where Dwell is the dwell time per spectrum analyzer sampling bin, S is the sweep time and B is the number of spectrum analyzer sampling bins. An upper bound of the aggregate duration of the intermittent control signals of Channel Closing Transmission Time is calculated by: C (ms)= N X Dwell (0.4 ms); where C is the Closing Time, N is the number of spectrum analyzer sampling bins (intermittent control signals) showing a U-NII transmission and Dwell is the dwell time per bin.
8. Measure the EUT for more than 30 minutes following the channel move time to verify that no transmissions or beacons occur on this Channel.
9. The test frequency , bandwidth and data rate as following table:

BW / Channel 80MHz / 5530MHz

Test Data Rate MCS0

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3.2.3 Test Setup
Conducted Setup Photo

Report No. : FZ872506

3.2.4 Test Deviation
There is no deviation with the original standard.

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3.2.5 Result of Channel Move Time, Channel Closing Transmission Time and Non-Occupancy Period for Client Beacon Test

Test Mode : Client without radar detection Test Engineer : AnAn Wu

Temperature :

24~26

Relative Humidity : 50~55%

BW / Channel

Test Item

Test Result

Limit

Pass/Fail

80MHz / 5530MHz

Channel Move Time Channel Closing Transmission Time
Non-Occupancy Period

0.6352 s 200ms + 50.8 ms
 30

 10s  260ms  30 min

Pass Pass Pass

Note: The Channel Closing Transmission Time is comprised of 200 milliseconds starting at the beginning of

the Channel Move Time plus any additional intermittent control signals required to facilitate a Channel move

(an aggregate of 60 milliseconds) during the remainder of the 10 seconds period. The aggregate duration of

control signals will not count quiet periods in between transmissions.

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3.2.6 Channel Move Time, Channel Closing Transmission Time and Non-Occupancy Period for Client Beacon Test Plots
<80MHz / 5530MHz> In-Service Monitoring Channel Move Time &
Channel Closing Transmission Time

Non-Occupancy Period

Non-associated test Master was off. (beacon test)

Note: Dwell (0.4 ms)= Sweep Time (12000 ms) / Sweep Point Bins (30000) Channel Closing Transmission Time (200 + 50.8 ms) = 200 + Number (127) X Dwell (0.4 ms) < 260ms

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3.2.7 Data Traffic and Noise Floor Plots
EUT data traffic (Client)

Report No. : FZ872506

Noise Floor (No transmission)

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Report No. : FZ872506

4 List of Measuring Equipment

Instrument Signal
Generator Spectrum Analyzer Power Divider Power Divider Power Divider Power Divider RF Cable RF Cable RF Cable RF Cable RF Cable RF Cable RF Cable RF Cable

Manufacturer
Rohde & Schwarz Keysight
Woken
MTJ
Woken
Woken MTJ
Cooperstion MTJ
Cooperstion MTJ
Cooperstion MTJ
Cooperstion MTJ
Cooperstion MTJ
Cooperstion
Woken
Woken

Model No. Serial No. Characteristics

SMJ100A

101375 100kHz~6GHz

N9010A MY56070412 10Hz~7GHz

3Way SMA ST108-0010

Power Divider

(#4)

2G~8GHz

2Way SMA MD10007
Power Divider

0.5G~6GHz

SMA 2Way STI08-0011 2GHz-18GHz
Power Divider

4Way SMA 0120A020560

0.5G~6GHz

Power Divider

02D

SBF405-105F MTJ-30cm-01 30 kHz~18GHz
LEX

SBF405-105F MTJ-30cm-02 30 kHz~18GHz
LEX

SBF405-105F MTJ-30cm-03 30 kHz~18GHz
LEX

SBF405-105F MTJ-30cm-04 30 kHz~18GHz
LEX

SBF405-105F MTJ-30cm-05 30 kHz~18GHz
LEX

SBF405-105F MTJ-30cm-06 30 kHz~18GHz
LEX

S05(100cm) 161202-04 30 kHz~18GHz

S05(100cm) 161202-05 30 kHz~18GHz

Calibration Date
Jan. 23, 2018
Aug. 08, 2017
Calibration from System Calibration from System Calibration from System Calibration from System Calibration from System Calibration from System Calibration from System Calibration from System Calibration from System Calibration from System Calibration from System Calibration from System

Test Date

Due Date

Jul. 31, 2018~ Jan. 22, 2019
Aug. 01, 2018 Jul. 31, 2018~
Aug. 07, 2018 Aug. 01, 2018 Jul. 31, 2018~ Calibration Aug. 01, 2018 from System Jul. 31, 2018~ Calibration Aug. 01, 2018 from System Jul. 31, 2018~ Calibration Aug. 01, 2018 from System Jul. 31, 2018~ Calibration Aug. 01, 2018 from System Jul. 31, 2018~ Calibration Aug. 01, 2018 from System Jul. 31, 2018~ Calibration Aug. 01, 2018 from System Jul. 31, 2018~ Calibration Aug. 01, 2018 from System Jul. 31, 2018~ Calibration Aug. 01, 2018 from System Jul. 31, 2018~ Calibration Aug. 01, 2018 from System Jul. 31, 2018~ Calibration Aug. 01, 2018 from System Jul. 31, 2018~ Calibration Aug. 01, 2018 from System Jul. 31, 2018~ Calibration Aug. 01, 2018 from System

Remark
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)
DFS (DFS02-HY)

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