FCC ID: 2AOJL-MARK-2 ProGlove Mark 2 System

The following will be added as to the user manual after acceptance of the content by UL CB. FCC/IC Certification Compliance ProGlove MARK 2 The ProGlove MARK 2 complies with the following FCC/IC product categories:

FCC Part 15 Subpart C 247 (intentional radiators = RF transceiver) FCC Part 15 Subpart C 249 (intentional radiators = RF transceiver) FCC Part 15 Subpart B 107/109 (unintentional radiator) ISED Canada RSS-Gen Category I (radio apparatus) ISED Canada RSS-247 ISED Canada RSS-102 ISED Canada RSS-210 The ProGlove MARK 2 is a portable device (distance between persons body and the antenna is 20 cm or less) and excluded from SAR (Specific Absorption Rate) requirements. FCC/IC Certification Compliance Under the regulations of the FCC and the IC the user has to be aware of the following when using the ProGlove MARK 2:

1. This equipment complies with FCC/IC radiation exposure limits set forth for an uncontrolled environment and meets the FCC radio frequency (RF) Exposure Guidelines and RSS-102 of the IC radio frequency (RF) Exposure rules. This equipment has very low levels of RF energy that are deemed to comply without testing of specific absorption rate (SAR). Cet quipement est conforme aux limites dexposition aux rayonnements nonces pour un environnement non contrl et respecte les rgles d'exposition aux frquences radiolectriques (RF) des lignes directrices de la FCC et les rgles dexposition aux frquences radiolectriques (RF) CNR-102 de lIC. Cet quipement met une nergie RF trs faible qui est considre comme conforme sans valuation du dbit dabsorption spcifique (DAS). 2. This ProGlove System has been tested and meets the FCC/IC RF exposure rules when used with ProGloves accessories supplied or designated for this product. Use of other accessories may not ensure compliance with FCC/IC RF exposure rules. User Manual Content for IC + FCC Le systme ProGlove a t test et est conforme aux rgles dexposition aux frquences radiolectriques (RF) de lIC ainsi que de la FCC lorsquil est utilis avec les accessoires ProGlove fournis ou conus pour ce produit. Lusage dautres accessoires ne garantit pas ncessairement la conformit aux rgles dexposition aux RF de lIC ou de la FCC. FCC Specific Certification Compliance Under the regulations of the FCC the user has to be aware of the following when using the ProGlove MARK 2:

1. FCC CAUTION Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. 2. This transmitter must not be co-located or operated in conjunction with any other antenna or transmitter. 3. 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. 4. 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. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. IC Specific Certification Compliance Under the regulations of the IC the user has to be aware of the following when using the ProGlove MARK 2:

RevA 2 of 3 User Manual Content for IC + FCC 1. This device complies with Industry Canadas licence-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. RevA 3 of 3

MARK 2 USER MANUAL Technical document 1 MARK 2 USER MANUAL TABLE OF CONTENTS SAFETY INSTRUCTIONS Hardware ..................................................................... 5 Wearables .................................................................... 5 SCOPE OF DELIVERY AND OVERVIEW ........................................................... 6 TECHNICAL PROPERTIES Hardware ..................................................................... 8 Wearables .................................................................. 13 USING MARK 2 SYSTEM 1st step: Charge MARK 2 .......................................... 16 2nd step: Connect Access Point One S ....................16 3rd step: Switch on MARK 2 ..................................... 18 4th step: Connect MARK 2 ........................................ 18 5th step: Scan with MARK 2 ...................................... 24 6th step: Disconnect MARK 2 system .....................25 Connection via 868/915 Mhz Connection via BLE HID 7th step: Release MARK 2 from Wearables ............29 CONFIGURATION TOOL 1st step: Barcode settings ........................................ 30 2nd step: Data formatting - Prefix and suffix ...........30 3rd step: Data formatting - Advanced formatting ................................................................... 30 4th step: Device setting ............................................ 31 5th step: Configuration barcodes ............................. 31 SIGNAL TABLE General ....................................................................... 32 Connection via 868/915 Mhz ................................... 33 Connection via BLE HID ............................................ 33 STORAGE AND CLEANING Storage location and temperature ........................... 34 Cleaning the Hardware ............................................. 34 Cleaning Wearables ................................................... 34 TROUBLESHOOTING MARK 2 ...................................................................... 35 868/915 MHz - Data transfer ................................... 37 BLE HID - Data transfer .............................................. 38 Charging Station S ..................................................... 39 DISPOSAL ...........................................................40 SAFETY AND CERTIFICATION SUPPORT & SERVICE Technical support contact data ............................... 41 Sales contact data .................................................... 41 ABOUT THESE OPERAT-

ING INSTRUCTIONS DOCUMENT OVERVIEW This user manual contains a system overview, techni-

cal data about the Hardware and Wearables, detailed step-by-step instructions for using MARK 2 system and information about configuration settings and trouble-

shooting. It is intended for process planners, configurators and maintenance technicians who are using MARK 2 system for the first time. It is designed so that MARK 2 system can be used safely without prior knowledge. ADDRESS:

Workaround GmbH (ProGlove) Rupert-Mayer-Strae 44 81379 Munich DOCUMENT TITLE:

MARK 2 User Manual DATE OF PUBLICATION:

02/2019 VERSION:

1.0 EXPLANATION OF SYMBOLS A warning notice is used in these instructions. Always read and observe this warning notice. The warning notice is introduced with the word CAUTION and means the following:

CAUTION Slight bodily injury or danger of physical damage to MARK 2 system is possible. In addition, other symbols are used that mean the following:

NOTE Additional notices provide more information about the respective chapter. TIP Additional tips facilitate the implementation of a certain procedure. RESULT The result will show the outcome of the prior action. SAFETY INSTRUCTIONS HARDWARE WEARABLES CAUTION Keep Wearables away from moving machine parts and do not use without MARK 2!

Otherwise the Wearables may get stuck on objects. CAUTION Use Wearables in the right size!

Otherwise this may cause pain or pressure points on your hand. CAUTION Keep all cables and wires away from high voltage sources!

This may otherwise lead to damage or faults due to overvoltage, line noise, electrostatic discharge or other irregularities. CAUTION Do not use damaged cables!

Otherwise the safe functioning of MARK 2 system cannot be ensured. CAUTION Do not unscrew the Hardware housing!

This may otherwise lead to MARK 2 system not func-

tioning properly. CAUTION Do not replace the battery of MARK 2!

This may otherwise lead to MARK 2 not functioning properly. 5 SCOPE OF DELIVERY CAUTION Do not use any damaged Hardware or Wearables!

Check whether Hardware and Wearables are properly packaged and undamaged. MARK 2 NOTE The Access Point One S is only delivered if connected via 868/915 MHz. ACCESS POINT ONE S - USB CONNECTION

....................... Access Point One S with USB cable ACCESS POINT ONE S - RS232 CONNECTION

....................... Access Point One S with RS232 cable

....................... Power supply with power cable

...... CHARGING STATION S

.............................. WEARABLES MARK 2 Standard or mid-range Charging Station S with power cable

(USB-C) and power supply

.............................. Standard Glove

.............................. Longlife/Palm Trigger 6

.............................. Index Trigger MARK 2 SYSTEM VIA 868/915 MHz OR BLE HID MARK 2 is a barcode scanner that can read 1D and 2D barcode types. The scanning range is between 10 - 80 cm

(standard range) or 30 - 150 cm (mid-range). There are two types of transmission:

VIA 868/915 MHz MARK 2 transmits the barcode data via 868 MHz

(US frequency: 915 MHz) to the Access Point One S. This is either connected via a USB cable (USB HID mode or USB CDC mode) or a RS232 cable (standard connection) to the end device (terminal, IPC, laptop, etc.). standard range 10 - 80 cm Wireless Connection Bluetooth Low Energy (BLE)

< 10 m range 1D and 2D barcodes VIA BLE HID MARK 2 transmits the barcode data to the end device via Bluetooth Low Energy Human Interface Device (BLE HID) without Access Point One S. Plug & Play Connection to terminal, IPC, tablet, etc. USB (HID/CDC) mid-range 30 - 150 cm Wireless Connection Frequency: 868/915 MHz

< 30 m range RS232 + power supply (12V) 7 MARK 2 OVERVIEW After scanning a barcode, MARK 2 provides feedback signals haptically by vibrations, acoustically by audio sig-

nals and visually by LEDs. The serial number on the label attached on the back of the device specifies whether it is a standard or mid-range device. Standard range serial number: M2SR ... Mid-range serial number: M2MR ... Connection symbol Battery symbol LEDs Fastening rail 8 Standard range Mid-range TECHNICAL DATA MECHANICAL PROPERTIES:

Dimensions: ............................ 50 x 45 x 16mm Weight: .................................... 40g ELECTRONIC PROPERTIES:

Battery type: ........................... Lithium polymer Charge duration: ..................... approx. 2 hours Number of scans: ................... 6000 scans RADIO TRANSMISSION 868/915 MHz:

European frequency range:.... 863 to 870 MHz on 70 channels USA frequency range: ............ 903 to 926 MHz on 32 channels

(100 kHZ channel spacing)

(752 kHZ channel spacing) Bluetooth Low Energy 4.0, 4.1, 4.2, 5.0 Transmission power: ............. 9dBm BLE RADIO TRANSMISSION:

Supported Bluetooth versions: ................................. Transmission power: ............. 0dBm SCAN ENGINE PROPERTIES:

Laser class: ............................ Laser class 2 Reading range: ....................... horizontal, 31, vertical: 23 Rotation tolerance: ................. + - 60 Tilt tolerance: .......................... + - 60 Roll tolerance: ......................... 360 Ambient light: ......................... Maximum of 96,900 lux

(direct sunlight) ENVIRONMENTAL CONDITIONS:

Drop test: ................................ > 50 drops from 6ft Protection against dust and water: ..................................... Working temperature: ...........

(onto concrete) IP54

-23F to +122F BARCODE TYPES 1D:

Code 128, GS1-128, EAN-128, EAN-13, GTIN-13, EAN-8, GTIN-8, ISBN-13, ISSN, ISMN, EAN-14, GTIN-14, DUN-14, SCC-14, ITF-14, EAN-18/NVE, SSCC-18, UPC-A, GTIN-12, UPC-E, Code 39, Code 39 Extended, Code 25, Code 25 Interleaved, EAN-5, EAN-2, JAN, EAN-99, EAN-Velocity, ISBN-13 Dual, ISBN-10, Codabar, Code 93, Code 93 Extended, PZN7, PZN8, guiding code, Ident code, Code 128A, Code 128B, Code 128C, MSI Plessey 2D:

PDF417, MicroPDF417, Data matrix, QR Code, Micro QR Code, Aztec, RSS, Composite, TLC-39, MaxiCode POSTAL:

US PostNet, US Planet, UK Postal, Australia Postal, Japan, Postal, Dutch Postal (KIX) DECODER READING RANGE SMALLEST SYMBOL IN THE BARCODE:

the mil inch [thousandths of an inch]

(mm) number indicates the size of the smallest function in the barcode POSSIBLE DISTANCE:

between MARK 2 and barcode 5 mil (0.127 mm) Code 128 ..................................... 5 mil (0.127 mm) PDF417 ....................................... 10 mil (0.254 mm) Data Matrix .................................. 7.4 in. (18.8 cm) to 16.0 in.(40.6 cm) 8.1 in. (20.6 cm) to 13.1 in.(33.3 cm) 7.0 in. (17.8 cm) to 17.0 in.(43.2 cm) 100% UPCA ................................ 20 mil (0.508 mm) Code 39 ...................................... 2.3 in. (5.8 cm) to 38.0 in.(96.5 cm) 2.1 in. (5.3 cm) to 54.0 in.(137.2 cm) 100 mil (2.54 mm) Code 39 ...................................... 11.0 in. (27.9 cm) to 172.0 in.(436.9 cm) 9 ACCESS POINT ONE S OVERVIEW TECHNICAL DATA The Access Point One S receives the scanned barcode data from MARK 2 via 868/915 MHz. This barcode data is transmitted to the end device via USB cable or RS232 cable. In the USB HID mode, the Access Point One S simu-

lates a computer keyboard. A standard connection is em-

ulated in the USB CDC mode. In order to use the USB CDC mode, (config.proglove.de) under Device settings - Output mode the device must be set to USB CDC in the configu-

ration tool. More detailed information about the conversion can be found in chapter 5 Configuration tool. A RS232 cable establishes a serial connection between Access Point One S and the end device. LED Label with serial number Pairing Barcode Cable release opening RJ45 socket 10 MECHANICAL PROPERTIES:

Dimensions: ........................... 138 x 64 x 33mm Weight: ................................... 100g ELECTRONIC PROPERTIES:

Power supply of Access Point One S via USB cable: ... Power supply of Access Point One S via RS232 cable: ..................................... 5 VDC (0.5A) via host computer 12 VDC (1A) via power supply PG12-10P55 RADIO TRANSMISSION:

Encryption: ............................. AES-128 Transmission range: ............. up to 30m within a building ENVIRONMENTAL CONDITIONS:

Protection against dust and water: ..................................... IP22 Working temperature: ........... -23F to +122F CONNECTIONS USB CDC CONNECTION:

Baud rate: .............................. All standard baud rates are supported. Standard setting: 115.200 Data bits: ................................ 8 Stop bits: ................................ 1 Parity: ..................................... NONE Data flow: ............................... OFF Required Control Signal:

DTR Handshake control: ............... OFF RS232 CONNECTION:

Baud rate: .............................. All standard baud rates are supported. Standard setting: 115.200 Data bits: ................................ 8 Stop bits: ................................ 1 Parity: ..................................... NONE Data flow: ............................... OFF Handshake control: ............... OFF USB HID CONNECTION - KEYBOARD LAYOUT:

Croatian, Czech, English (GB), English (US), French (Belgium), French (Canada), French (France), German

(Germany), German (Switzerland), Italian, Portuguese (Brazil), Portuguese (Portugal), Spanish, Slovakian, Slovenian 11 CHARGING STATION S OVERVIEW TECHNICAL DATA The Charging Station S consists of two charging trays that charge two MARK 2 devices at the same time. The charging status is indicated by the LEDs of MARK 2. The LEDs pulse red while in charging mode. When the battery is fully charged, the LEDs pulse green constantly. It takes about 2 hours to charge a MARK 2. The Charging Station S can be attached to work stations, for example, through the attachment openings (with M5 screws or cable ties). MECHANICAL PROPERTIES:

Dimensions: ............................. 140 x 56 x 19mm Weight: ...................................... 110g ELECTRONIC PROPERTIES:

Power supply: ........................... 5 VDC (1.2 A) via power supply SAW-0501200 Attachment opening for M5 screws Charging tray Pins ENVIRONMENTAL CONDI-

TIONS:

Protection against dust and water: ....................................... IP20 Working temperature: ............

-23F to +122F USB-C 12 Attachment opening for cable ties Label with serial number STANDARD GLOVE OVERVIEW PROPERTIES The textile trigger is located on the index finger and is attached to the right or left glove. NOTE The Standard Glove is available in four different sizes (stan-

dard industry sizes 7,8,9,10). Fastening rail Nitrile/PU coating according to EN 420 and EN 388: .......................................... Textile trigger Label with size indication GENERAL:

Packaging unit: ......................... 5 gloves per package Coating:..................................... Nitrile/PU coating SAFETY & CERTIFICATION:

Standards: ................................ EN388 (2131) EN420 Certification: ............................. RoHS CE mark Abrasion resistance 2 Cut resistance 1 Tear strength 3 Penetration force 1 13 LONGLIFE/PALM TRIGGER OVERVIEW PROPERTIES The textile trigger is located on the inside of the hand and is attached to the right or left glove. The Longlife / Palm Trigger can be used in applications where free fingertips are needed or can be worn over other gloves. NOTE The Longlife/Palm Trigger is available in three different sizes (S,M,L). GENERAL:

Packaging unit: ...................... 3 gloves per package SAFETY & CERTIFICATION:

Certification: .......................... RoHS CE mark Textile trigger Variable Velcro connection Fastening rail 14 INDEX TRIGGER OVERVIEW PROPERTIES The textile trigger is located on the index finger and is attached to the right or left glove. The Index Trigger can be used in applications where free fingertips and palms are needed or can be worn over other gloves. NOTE The Index Trigger is available in three different sizes

(S,M,L). GENERAL:

Packaging unit: ...................... 3 or 10 gloves per package SAFETY & CERTIFICATION:

Certification: .......................... RoHS CE mark Fastening rail Textile trigger Variable Velcro connection 15 SETUP OF MARK 2 SYSTEM 1ST STEP: CHARGE MARK 2 CAUTION Only use MARK 2 in a dry Charging Station S and only touch with dry hands!

This may otherwise lead to the Charging Station S not functioning properly. The pins face down. Insert MARK 2 in the Charging Station S. RESULT MARK 2 pulses red and charges in the Charging Station S. NOTE The LEDs pulse red while in charging mode. When the battery is fully charged, the LEDs pulse green. It takes about 2 hours to charge MARK 2. 16 2ND STEP: CONNECT THE ACCESS POINT ONE S (868/915 MHZ) CAUTION Only touch the Access Point One S with dry hands!

This may otherwise lead to the Access Point One S system not functioning properly. NOTE The following steps are only needed when connecting via 868/915 MHz. For a connection via BLE HID; see p. 18 CONNECTION WITH USB CABLE IN USB HID MODE:

1. Connect the USB cable with the end device. 2. Plug the other end of the USB cable into the RJ45 socket of the Access Point One S. A clear clicking sound confirms the correct fastening. RESULT The LED of the Access Point One S lights up green. The Access Point One S is connected to the end device. CONNECTION WITH USB CABLE IN USB CDC MODE:

CONNECTION WITH RS232 CABLE:

868

(915) MHz 1. Connect the USB cable to the end device. 2. Plug the other end of the USB cable into the RJ45 socket of the Access Point One S. A clear clicking sound confirms the correct fastening. 3. In the configuration tool

(config.proglove.de) under Device settings - USB output mode, select USB CDC. More detailed information about this can be found in chapter 5 Configuration tool. 4. Connect with the COM port on the end device. 1. Connect the RS232 with the end device. Connect the power supply to the RS232 and into an external power source. 2. Plug the other end of the cable into the RJ45 socket of the Access Point One S. A clear clicking sound con-

firms the correct fastening. 3. Check which baud rate must be set. The baud rate is set to 115,200 as a standard. At a different baud rate, this is to be set in the configuration tool (config.proglove.de). More detailed information about this can be found in chapter 5 Configuration tool. 4. Select the COM port on the end device and set the appropriate baud rate. RESULT The LED of the Access Point One S lights up green. The Access Point One S is connected to the end device. RESULT The LED of the Access Point One S lights up green. The Access Point One S is connected to the end device. 17 3RD STEP: SWITCH ON MARK 2 4TH STEP: CONNECT MARK 2 (868/915 MHZ) 1. Position MARK 2 on the fastening rail of the glove. The pins face down. 2. Push MARK 2 down. A clear clicking sound confirms the correct fastening. 3. Press the textile trigger on the glove for about 2 seconds. CONNECT VIA 868/915 MHz:

1. Press the textile trigger on the glove in order to acti-

vate the red crosshairs. 2. Aim MARK 2 crosshairs on the Access Point One S and scan the pairing barcode. RESULT MARK 2 lights up with all LEDs. You can hear a beeping sound and feel a short vibration. MARK 2 is switched on. RESULT MARK 2 lights up twice. You can hear a beeping sound and feel a short vibration. MARK 2 is connected to the Access Point One S. NOTE MARK 2 switches off automatically after 15 minutes without being used. NOTE Several MARK 2 can be connected to an Access Point One S. 18 4TH STEP: CONNECT MARK 2 (BLE HID) CONNECT VIA BLE HID:

MARK 2 can be used to establish a connection via Bluetooth Low Energy Human Interface Device (BLE HID) to an end device. Possible operating systems are: Apple iOS, Google Android, Microsoft Windows. The individual steps for connecting to the respective operating systems for the first time can be found in the following. More detailed information about using MARK 2 sys-

tem daily can be found in the Quickstart Guide MARK 2 under support.proglove.com. PREREQUISITES:

the end device supports at least Bluetooth 4.0 stan-

dard no interference or physical obstacles (e.g. metal shelves) interfere with the connection between MARK 2 and the end device the range between MARK 2 and the end device is

< 10 meters TIP Visually label the connected devices (MARK 2 with the end device) , e.g. using numbering or a color code. This will allow the user to find the right devices faster. On a battery-operated end device, the power-saving mode can lock the end device and MARK 2 simultaneously. Permanently disable the power-saving mode of the end device. The last 5 digits of the serial number attached to the back side identify MARK 2 among the available Bluetooth devices. Read the serial number of MARK 2. RESULT Example serial number: MARK 2 - 00000. To make MARK 2 visible for the end device, the MARK 2 must be put into pairing mode. 1. Press the textile trigger on the glove in order to activate the red crosshairs. 2nd Aim MARK 2 crosshairs at the pair-

ing barcode and scan. TIP Adhere the pairing barcode to the end device. In this way, the user can find it quickly and easily. RESULT MARK 2 pulses blue and beeping sounds can be heard. MARK 2 searches for an end device in pairing mode. 19 CONNECT WITH APPLE iOS 11 OR HIGHER:

01 Settings 02 03 RESULT MARK 2 - 00000 MARK 2 - 00000 Under: "Settings - Bluetooth activate the Bluetooth option. Select MARK 2 - 00000. Confirm the "Bluetooth Pairing Request. MARK 2 will flash blue twice and you will hear two beeps. MARK 2 will be shown as connected under My devices and is ready for use. 20 CONNECT WITH GOOGLE ANDROID 4.4 OR HIGHER:

01 02 03 RESULT MARK 2 - 00000

- 00000 Under "Settings - Connected devices switch on the Bluetooth option. Tap Bluetooth and select Couple new device. Select MARK 2 - 00000. MARK 2 will flash blue twice and you will hear two beeps. MARK 2 will be shown as connected under My devices and is ready for use. 21 CONNECT WITH MICROSOFT WINDOWS 10:

01 02 03 04 MARK 2 - 00000 MARK 2 - 00000 Under Bluetooth and other devices, click on Add Bluetooth and other devices. Select the option Bluetooth:

Mouses, keyboards and other types. Select MARK 2 - 00000. Click Done. 22 RESULT MARK 2 - 00000 MARK 2 will flash blue twice and you will hear two beeps. MARK 2 will be shown as connected under My devices and is ready for use. 23 5TH STEP: SCAN WITH MARK 2 CAUTION For mid-range scanning range: do not look directly into the crosshairs!

Otherwise this can lead to temporary blinding effects. MARK 2 is an omnidirectional scanner. MARK 2 can thus scan barcodes from different angles. For a standard range device (serial number: M2SR), the scanning range is between 10 - 80 cm per application case and barcode size. For a mid-range device (serial number: M2MR), the scanning range is 30 - 150 cm per application case and barcode size. 1. Press the textile trigger on the glove in order to activate the crosshairs. 2. Aim MARK 2 crosshairs at the barcode and scan. EXAMPLE BARCODE:

standard range mid range 24 RESULT MARK 2 lights up green. You can hear a beeping sound and feel a short vibration. MARK 2 has scanned the example barcode and trans-

mitted it to the end device. 6TH STEP: DISCONNECT MARK 2 (868/915 MHZ) DISCONNECT MARK 2 FROM THE ACCESS POINT ONE S:

DISCONNECT THE CONNECTION CABLE FROM THE ACCESS POINT ONE S:

868

(915) MHz Use MARK 2 to scan the pairing code of a different Access Point One S. RESULT MARK 2 is disconnected from Access Point One S and is connected to the new Access Point One S. Place MARK 2 in the Charging Station S. RESULT MARK 2 is disconnected from the Access Point One S and can be connected to a new one. 1. Press an elongated object

(e.g. paper clip) into the opening on the top of the Access Point One S to open the safety closure. 2. Once the safety closure has been pressed, disconnect the connection cable out of the RJ45 socket. RESULT The LED of the Access Point One S no longer lights up green. The connection cable is disconnected from Access Point One S. 25 6TH STEP: DISCONNECT MARK 2 (BLE HID) DISCONNECT FROM APPLE iOS:

NOTE: Only disconnect MARK 2 if this is to be newly connected to another end device. 01 02 03 RESULT MARK 2 - 00000 Under: "Settings - Bluetooth, tap on the symbol. Tap on Forget this device. Confirm Forget device. MARK 2 will flash red three times and you will hear three beeps. MARK 2 will no longer be shown as connected under Other devices. 26 DISCONNECTING FROM GOOGLE ANDROID:

02

- 00000 RESULT 01

- 00000 In the Bluetooth option under Connected devices tap on the gear wheel symbol of MARK 2 - 00000. Select Remove. MARK 2 will flash red three times and you will hear three beeps. MARK 2 will no longer be shown as connected under Other devices. 27 DISCONNECTING FROM MICROSOFT WINDOWS:

01 02 RESULT MARK 2 - 00000 MARK 2 - 00000 Under Bluetooth and other devic-

es, select MARK 2 - 00000. Click Remove device. MARK 2 will flash red three times and you will hear three beeps. MARK 2 will no longer be shown as connected under Other devices. 28 7TH STEP: RELEASE MARK 2 FROM WEARABLES 1. Use your fingers to press between MARK 2 and the fastening rail of the glove. 2. Press MARK 2 up slightly and push it forward. 29 CONFIGURATION TOOL The configuration tool under config.proglove.de can be used to individually setup the MARK 2 system and improve scanning processes. APPLICATION EXAMPLE:

Identify different work stations. Create prefix with a specific digit. The configuration occurs in 5 steps:

1ST STEP: BARCODE SETTINGS The barcode settings can be used to switch the barcode types (including inverse barcodes) on or off and to set bar-

code lengths, edge tolerances as well as check digits. APPLICATION EXAMPLE:

Avoid incorrect scans with different barcode types on one label. Switch off unused barcode types. 2ND STEP: DATA FORMATTING - PREFIX AND SUFFIX Prefixes and suffixes can be used to change barcode data with a maximum of 1 character. 3RD STEP: DATA FORMATTING -

ADVANCED FORMATTING Advanced formatting can be used to change barcode data through rules with conditions and actions. These are then in an IF-THEN relationship with each other, which means that:

IF a condition is defined, THEN an action occurs. An action is also carried out without a condition. 4 condi-

tions and 4 actions are possible per rule. Overall, up to 16 rules can be defined. APPLICATION EXAMPLE:

Insert the suffix H-TAB for the barcode type Code128 Create the condition "Code types: Include code types:

Code128: and the action Insert: Suffix: H-TAB. 30 4TH STEP: DEVICE SETTINGS The device settings can be used to make the settings for the Access Point One S (e.g. keyboard layout), output mode

(USB HID or USB CDC mode) as well as settings about feed-

back profiles and optimizations of the scan engine. APPLICATION EXAMPLE:

Change the baud rate for a connection with a RS232 cable:

1. Click in the field RS232 baud rate 115,200 2nd Select the appropriate baud rate. 5TH STEP: CONFIGURATION BARCODES Configuration of MARK 2 and Access Point One S with new settings. Use MARK 2 to scan the configuration barcodes. STANDARD SETTINGS:

The standard settings are activated as a default setting. They are defined as follows:

BARCODE SETTINGS DATA FORMATTING -

PREFIX AND SUFFIX DATA FORMATTING -

ADVANCED FORMATTING DEVICE SETTINGS 868/915 MHZ All barcode types are activated. Inverse barcode types are disabled. BLE HID ENTER is activated as a suffix Not available Keyboard layout German (DE), All feedback functions are enabled, no engine settings are enabled No rules are activated USB-HID output mode Keyboard layout German (DE), All feedback functions are enabled, no engine set-

tings are enabled 31 SIGNAL TABLE GENERAL:

Description LED Connection symbol Battery symbol Audio signal Vibration Barcode data could be transferred Short green flashing Barcode data could not be transferred Red flashing 3 times briefly Short positive beep Long negative beep Short vibration Long vibration Battery charge under 10%

Slow red flashing Battery charge under 7%

Switch on MARK 2 with battery charge under 5%

Battery charge under 95%

Red flashing 3 times briefly Red flashing 3 times briefly Pulsating red Battery charge over 95%

Constantly green 32 CONNECTION VIA 868/915 MHz:

Description LED Connection symbol Battery symbol Audio signal Vibration MARK 2 is connected to the Access Point One S Blue flashing 2 times briefly Blue flashing 2 times briefly Short rising positive beep Short vibration CONNECTION VIA BLE HID:

Description LED Connection symbol Battery symbol Audio signal Vibration MARK 2 is searching for an end device Blue pulsing MARK 2 is connected to an end device Blue flashing 2 times briefly Blue flashing 2 times briefly Continuously rising beep Short rising positive beep Short vibration MARK 2 cannot connect with the end device Red flashing 3 times briefly MARK 2 is disconnected from an end device Red flashing 3 times briefly Slow red flashing Negative beep briefly 3 times Long vibration Red flashing 3 times briefly Negative beep briefly 3 times Long vibration 33 STORAGE AND CLEANING STORAGE STORAGE LOCATION:

Store the Hardware (MARK 2, Access Point One S, Charging Station S and cable) as well as Wearables

(Standard Glove, Longlife/Palm Trigger, Index Trigger) in a dry and dirt-free environment. TEMPERATURE:

Store the Hardware (MARK 2, Access Point One S, Charging Station S and cable) as well as Wearables

(Standard Glove, Longlife/Palm Trigger, Index Trigger) in an environment between - 4F and + 140F. CLEANING HARDWARE:

CAUTION:

Protect Hardware from moisture!

This may otherwise lead to MARK 2 system not func-

tioning properly. CAUTION:

Do not clean Hardware with chemical agents!

Otherwise, the material can be damaged. Regularly clean the scanner glass with cotton swabs. WEARABLES:

CAUTION:

Protect Wearables from moisture!

This may otherwise lead to the Wearables not functioning properly. Do not wash Wearables. 34 TROUBLESHOOTING MARK 2 PROBLEM CAUSE SOLUTION MARK 2 is not responding. Battery is not charged. Glove is defective. MARK 2 is not vibrating or does not beep after successful data transfer. Feedback signals are disabled. Charge MARK 2 in the Charging Station S for at least 20 min. Change glove. Check whether the feedback signals in the configuration tool (config.proglove.de) are enabled under Feedback Profiles. The battery symbol of MARK 2 flashes red. The battery charge is low. Charge MARK 2 in the Charging Station S for at least 20 min. 35 PROBLEM CAUSE SOLUTION The crosshairs light up, but no bar-

codes are scanned. The barcode label cannot be read. Create new barcode label. The barcode type cannot be read. The barcode length cannot be read. Scanner glass is dirty. The crosshairs light up, but the bar-

codes are hard to scan. The barcode label is difficult to read. Scanner glass is dirty. Scanning distance is not optimally used. 36 Check whether the barcode type in the configuration tool (config.proglove.de) is en-

abled under Barcode settings. Check whether the barcode length in the configuration tool (config.proglove.de) is en-

abled under Barcode settings. Clean the scanner glass with a cotton swab. To enhance the scanning performance, make the following settings in the configu-

ration tool (config.proglove.de) under Device settings: Fuzzy 1D processing: ON Clean the scanner glass with a cotton swab. Position MARK 2 closer or further away from the barcode label and scan. For standard range: 10 - 80 cm For mid range: 30 - 150 cm. 868/915 MHZ - DATA TRANSFER PROBLEM CAUSE SOLUTION Barcode data is not transferred. MARK 2 is not connected to the Access Point One S. MARK 2 is out of range of the Access Point One Ss One S.

(maximum range is < 98ft.) Access Point One S is defective. MARK 2 is defective. Different barcode data is transferred. The keyboard layout of the end device is set with a different language. Scan the pairing barcode on the Access Point One S. Bring MARK 2 closer to Access Point One S. Access Point One S must be replaced. More detailed information can be found at proglove.com/support. MARK 2 must be replaced. More detailed information can be found at proglove.com/support. Adjust the keyboard layout of the configuration tool to the keyboard layout of the end device. In the configuration tool (config.proglove.de) under Device settings - USB keyboard layout, adjust the language. 868

(915) MHz 37 BLE HID - DATA TRANSFER PROBLEM CAUSE SOLUTION Barcode data is not transferred. MARK 2 is not connected to the end device. MARK 2 lights up green after the data transfer, but no barcode data is shown on the end device. Different barcode data is trans-

ferred. MARK 2 is out of range of the end device.

(Maximum range is < 33ft.) The keyboard layout of the end device is set with a different language. MARK 2 flashes red 3 times, 3 negative beeps are heard and a long vibration is felt. MARK 2 cannot connect with the end device. 1. Scan the pairing barcode. 2. Lights up blue twice briefly while MARK 2 is connecting and after a successful connection. Bring MARK 2 closer to the end device and scan the pairing barcode. Adjust the keyboard layout of the configuration tool to the keyboard layout of the end device. In the configuration tool (config.proglove.de) under Device settings - BLE-HID keyboard layout, ad-

just the language. 1. Check whether the range between MARK 2 and end device is < 10 m. If not, get closer. 2. Disconnect the connection between the end device and MARK 2 and reconnect (see 19 Chapter 4) Step 6: Disconnect MARK 2 and Step 4: Connect MARK 2. 3. Scan the pairing barcode again. 4. Scan barcode again. 38 CHARGING STATION S PROBLEM CAUSE SOLUTION MARK 2 does not charge in Charging Station S. MARK 2 is not correctly inserted in Charging Station S. Charging Station S is not connect-

ed to power source. MARK 2 is defective. Charging Station S is defective. LEDs of MARK 2 do not light up im-

mediately when MARK 2 is placed in the Charging Station S. MARK 2 charges in the Charging Station S, but the feedback signals are delayed by about 30 seconds. Insert MARK 2 in the Charging Station S again. Connect Charging Station S to power source. MARK 2 must be replaced. More detailed information can be found at proglove.com/support. The Charging Station S must be replaced. More detailed information can be found at proglove.com/support. Wait until the LEDs of MARK 2 signal the charging. 39 DISPOSAL CERTIFICATION Natural resources are used for the production of MARK 2 system. These may contain hazardous substances, which could harm the environment. MARK 2 system corresponds to the directive 2002/96/EC of the EUROPEAN PARLA-

MENT AND COUNCIL of 27 January 2003 regarding old electronic and electric devices (WEEE). That is why MARK 2 system cannot be disposed of through the household waste. If you have questions about a return or an envi-

ronmentally-friendly disposal, please contact ProGlove support (contact data under chapter 10 Support and Service). Carry out the following steps to decommission MARK 2 system:

1. Release MARK 2 from Wearables 2. Disconnect the connection cable from the Access Point One S 3. Disconnect the mains plug from the Charging Station S 4. Properly dispose of Hardware and Wearables as elec-

tronic scrap SAFETY / LVD TESTING AS PER:

IEC 60950-1:2005/AMD1:2009 IEC 60950-1:2005/AMD2:2013 IEC 60950-1:2005 EN 60950-1: 2006 / A11: 2009 / A1: 2010 /

A12: 2011 / A2:2013 COMPLIANCE WITH ENVIRONMENTAL PROTECTION:

2011/65/EU restriction of certain hazardous substances in electric and electronic devices (RoHS). FCC REQUIREMENT:

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.

>No changes shall be made to the equipment without the manufacturers permission as this may void the users authority to operate the equipment 40 SUPPORT TECHNICAL SUPPORT CONTACT DATA SALES CONTACT DATA If you have questions about integrating or using the ProGlove devices, our customer support department will be happy to help you. They will process your request as soon as possible. You can reach them at:

SUPPORT WEBSITE:

proglove.com/support E-MAIL ADDRESS:

support@proglove.de (EU) support@proglove.com (US) TELEPHONE NUMBER:

0800 7762255 (free within Germany)

+49 1520 2907017 (outside of Germany)

+1 (833) 357-2273 (US) E-MAIL ADDRESS:

sales@proglove.de (EU) us@proglove.de (US) TELEPHONE NUMBER:

+49 89 26203505 (EU)

+1 (833) 357-2273 (US) YOUR CONTACT PARTNER:

Enter your contact partner here:

Name:

Telephone number:

Monday Friday, 9:00 am to 5:00 pm E-mail address:

41 NOTES 42 User Manual 02/2019 Workaround GmbH Rupert-Mayer-Str. 44 81379 Munich Germany ProGlove Inc. 332 S Michigan Ave 9th fl. 60604 Chicago, IL USA Configuration at:

config.proglove.de config.proglove.com Support at:

proglove.com/support support@proglove.de support@proglove.com 44

TEST REPORT Test Report No. : UL-RPT-RP-12741851-316-FCC Applicant Model No. FCC ID Technology Test Standard(s)

: Workaround GmbH

: MARK 2 MR

: 2AOJL-MARK-2

: Bluetooth Low Energy

: FCC Parts 15.209(a) & 15.247 For details of applied tests refer to test result summary 1. 2. 3. 4. 5. This test report shall not be reproduced in full or partial, without the written approval of UL International Germany GmbH. The results in this report apply only to the sample tested. The test results in this report are traceable to the national or international standards. Test Report Version 1.0 Result of the tested sample: PASS _________________________ Prepared by: Krume, Ivanov Title: Laboratory Engineer Date: 28 May 2019 _________________________ Approved by: Ajit, Phadtare Title: Lead Test Engineer Date: 28 May 2019 This laboratory is accredited by DAkkS. The tests reported herein have been performed in accordance with its terms of accreditation. UL INTERNATIONAL GERMANY GMBH Hedelfinger Str. 61 70327 Stuttgart, Germany STU.CTECHLab@ul.com UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 This page has been left intentionally blank. ISSUE DATE: 28 MAY 2019 Page 2 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Table of Contents ISSUE DATE: 28 MAY 2019 1. Customer Information ................................................................................................................ 4 4 4 1.1. Applicant Information 1.2. Manufacturer Information 2.1. General Information Applied Standards Location Date information 2. Summary of Testing ................................................................................................................... 5 5 5 5 5 6 6 6 2.2. Summary of Test Results 2.3. Methods and Procedures 2.4. Deviations from the Test Specification 3. Equipment Under Test (EUT) .................................................................................................... 7 7 7 7 8 8 8 9 3.1. Identification of Equipment Under Test (EUT) 3.2. Description of EUT 3.3. Modifications Incorporated in the EUT 3.4. Additional Information Related to Testing 3.5. Support Equipment A. Support Equipment (In-house) B. Support Equipment (Manufacturer supplied) 4. Operation and Monitoring of the EUT during Testing ............................................................10 10 10 4.1. Operating Modes 4.2. Configuration and Peripherals 5.1. General Comments 5.2. Test Results 5. Measurements, Examinations and Derived Results ...............................................................11 11 12 12 14 16 20 28 5.2.1. Transmitter Minimum 6 dB Bandwidth 5.2.2. Transmitter Duty Cycle 5.2.3. Transmitter Maximum Peak Output Power 5.2.4. Transmitter Radiated Emissions 5.2.5. Transmitter Band Edge Radiated Emissions 6. Measurement Uncertainty ........................................................................................................32 7. Used equipment ........................................................................................................................33 8. Report Revision History ...........................................................................................................34 Page 3 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC ISSUE DATE: 28 MAY 2019 TEST REPORT VERSION 1.0 1. Customer Information 1.1. Applicant Information Company Name:

Workaround GmbH Company Address:

Rupert-Mayer-Str. 44, 81379 Munich, GERMANY Contact Person:

Daniel Castillo Contact E-Mail Address:

daniel.castillo@proglove.de 1.2. Manufacturer Information Company Name:

Workaround GmbH Company Address:

Rupert-Mayer-Str. 44, 81379 Munich, GERMANY Contact Person:

Daniel Castillo Contact E-Mail Address:

daniel.castillo@proglove.de Page 4 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 2. Summary of Testing 2.1. General Information Applied Standards ISSUE DATE: 28 MAY 2019 Specification Reference:

47CFR15.247 Specification Title:

Code of Federal Regulations Volume 47 (Telecommunications):

Part 15 Subpart C (Intentional Radiators) - Section 15.247 Specification Reference:

47CFR15.209 Specification Title:

Code of Federal Regulations Volume 47 (Telecommunications):

Part 15 Subpart C (Intentional Radiators) Section 15.209 Test Firm Registration:

399704 Location Location of Testing:

UL International Germany GmbH Hedelfinger Str. 61 70327 Stuttgart Germany Date information Order Date:

EUT arrived:

Test Dates:

21 February 2019 12 March 2019 12 March 2019 to 18 March 2019 EUT returned:

-/-

Page 5 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 2.2. Summary of Test Results Clause Measurement ISSUE DATE: 28 MAY 2019 Complied Did not comply Not Not performed applicable Part 15.207 Transmitter AC Conducted Emissions(1) Part 15.247(a)(2) Transmitter Minimum 6 dB Bandwidth Part 15.35(c) Transmitter Duty Cycle Part 15.247(e) Transmitter Power Spectral Density(2) Part 15.247(b)(3) Transmitter Maximum Peak Output Power Transmitter Radiated Emissions Part 15.247(d)/15.209(a) Part 15.247(d)/15.209(a) Note:

Transmitter Band Edge Radiated Emissions

1. Not applicable as EUT does not support BT-LE transmit or receive modes whilst charging. 2. In accordance with KDB 558074 D01 section 8.4 referencing ANSI C63.10:2013, subclause 11.10.1, PSD is not required if the maximum conducted output power is less than the PSD limit of 8 dBm / 3 kHz. The PSD level is therefore deemed to be equal to the measured total output power 2.3. Methods and Procedures Reference:

ANSI C63.10-2013 Title:

American National Standard of Procedures for Compliance Testing of Unlicensed Wireless Devices Reference:

KDB 558074 D01 DTS Meas Guidance v05r01 Februar 11, 2019 Title:

Guidance for Compliance Measurements on Digital Transmission System, Frequency Hopping Spread Spectrum System, and Hybrid System Devices Operating Under Section 15.247 of the FCC Rules 2.4. Deviations from the Test Specification For the measurements contained within this test report, there were no deviations from, additions to, or exclusions from the test specification identified above. Page 6 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 3. Equipment Under Test (EUT) 3.1. Identification of Equipment Under Test (EUT) Brand Name:

Model Name or Number:

ProGlove MARK 2 MR ISSUE DATE: 28 MAY 2019 Test Sample Serial Number:

M2MR101000236 / M2MR101000237(Radiated sample) Hardware Version Number:

1010 Firmware Version Number:

1.0.1, FCC branch FCC ID:

Brand Name:

Model Name or Number:

2AOJL-MARK-2 ProGlove MARK 2 MR Test Sample Serial Number:

M2MR101000250 (Conducted sample with RF port) Hardware Version Number:

1010 Firmware Version Number:

1.0.1, FCC branch FCC ID:

2AOJL-MARK-2 3.2. Description of EUT The equipment under test was a wireless wearable bar-code reader supporting Bluetooth Low Energy. 3.3. Modifications Incorporated in the EUT No modifications were applied to the EUT during testing. Page 7 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 3.4. Additional Information Related to Testing ISSUE DATE: 28 MAY 2019 Technology Tested:

Bluetooth Low Energy (Digital Transmission System) Type of Unit:

Channel Spacing:

Modulation:

Data Rate:

Transceiver 2 MHz GFSK 1 Mbps Power Supply Requirement(s):

Nominal 5 V DC Power Supply Type:

Internal Rechargeable Battery Power Supply Detail(s):

Sunny Electronics Corp | Model: SYS 1561-1105-W2E Maximum measured Conducted Output Power:

+6.2 dBm Maximum Antenna Gain:

0 dBi Antenna Type:

Antenna Details:

Custom Flex PCB Antenna TQ Systems | Model No.: 3.087.250.100 | Version: 2.4.1 Transmit Frequency Range:

2402 MHz to 2480 MHz Transmit Channels Tested:

Channel ID RF Channel Bottom Middle Top 0 21 39 Channel Frequency

(MHz) 2402 2444 2480 3.5. Support Equipment The following support equipment was used to exercise the EUT during testing:

A. Support Equipment (In-house) Item Description Brand Name Model Name or Number Serial Number 1 Laptop PC HP HP ProBook 650 G1 5CG6143YWB Page 8 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 B. Support Equipment (Manufacturer supplied) ISSUE DATE: 28 MAY 2019 Item Description Brand Name Model Name or Number Serial Number 1 2 3 4 5 6 Power Supply, AC/DC ADAPTER USB Type-A to Type-C cable Mark 2 Charger Station S Glove with button to trigger Mark Glove with button to trigger Mark Glove with button to trigger Mark Shenzhen Yingyuan electronics Co. SAW06D-050-1200GB Not stated Not stated Not stated Not stated ProGlove Not stated Not stated ProGlove Long Life Not stated ProGlove Glove Not stated ProGlove Index Trigger Not stated Page 9 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 4. Operation and Monitoring of the EUT during Testing ISSUE DATE: 28 MAY 2019 4.1. Operating Modes The EUT was tested in the following operating mode(s):

Transmitting at maximum power in Bluetooth LE mode with modulation, maximum possible data length available and Pseudorandom Bit Sequence 9. 4.2. Configuration and Peripherals The EUT was tested in the following configuration(s):

The EUT was powered via internal rechargeable battery. The test modes were activated using Mark 2 Certification Helper.pdf supplied by customer. The test modes were selected by scanning the QR codes in the document Mark 2 Certification Helper.pdf. The EUT conducted sample was used for transmitter duty cycle, 6 dB bandwidth and maximum peak output power measurements. The EUT radiated samples were used for radiated emissions and radiated band edge measurements. Before starting final radiated measurements worst case verification with EUT in Standing & EUT in Laying position was perfomed by Lab. EUT in Standing position found to be the worst case therefore this report includes relevant results. Page 10 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 5. Measurements, Examinations and Derived Results ISSUE DATE: 28 MAY 2019 5.1. General Comments Measurement uncertainties are evaluated in accordance with current best practice. Our reported expanded uncertainties are based on standard uncertainties, which are multiplied by an appropriate coverage factor to provide a statistical confidence level of approximately 95%. Please refer to Section 6 Measurement Uncertainty for details. In accordance with DAkkS requirements all the measurement equipment is on a calibration schedule. All equipment was within the calibration period on the date of testing. Page 11 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 5.2. Test Results 5.2.1. Transmitter Minimum 6 dB Bandwidth Test Summary:

ISSUE DATE: 28 MAY 2019 Test Engineer:

Abdoufataou Salifou Test Date:

13 & 14 March 2019 Test Sample Serial Number:

M2MR101000250 Test Site Identification SR 9 FCC Reference:

Part 15.247(a)(2) Test Method Used:

FCC KDB 558074 Section 8.2 referring ANSI C63.10:2013 Section 11.8.1 Option 1 Environmental Conditions:

Temperature (C):

22.3 & 22.1 Relative Humidity (%):

27 & 28 Notes:

1. 6 dB DTS bandwidth tests were performed using a spectrum analyser in accordance with FCC KDB 558074 Section 8.2 referring ANSI C63.10:2013 Section 11.8.1 Option 1 measurement procedure. The spectrum analyser resolution bandwidth was set to 100 kHz and video bandwidth 300 kHz. A peak detector was used, sweep time was set to auto and the trace mode was Max Hold. The DTS bandwidth was measured at 6 dB down from the peak of the signal. 2. The RF port on the EUT was connected to the spectrum analyser using suitable attenuation and RF cable. The measured values takes into consideration the external attenuation correction factors. The RF cable attenuation (0.4 dB@2.4GHz) from the EUT to Analyzer including the 10 dB attenuation at the Spectrum Analyzer input was added as a reference level offset (10.4 dB) to each of the conducted plots. Test Setup:

EUT Cable Test Receiver Power Supply Page 12 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Minimum 6 dB Bandwidth (continued) ISSUE DATE: 28 MAY 2019 Results:

Channel Bottom Middle Top 6 dB Bandwidth

(kHz) 714.000 708.938 719.156 Limit

(kHz) 500 500 500 Margin

(kHz) 214.000 208.938 219.156 Result Complied Complied Complied Bottom Channel Middle Channel Top Channel Result: Pass Page 13 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 5.2.2.Transmitter Duty Cycle Test Summary:

ISSUE DATE: 28 MAY 2019 Test Engineer:

Abdoufataou Salifou Test Date:

13 March 2019 Test Sample Serial Number:

M2MR101000250 Test Site Identification SR 9 FCC Reference:

Part 15.35(c) Test Method Used:

FCC KDB 558074 Section 6.0 Environmental Conditions:

Temperature (C):

Relative Humidity (%):

22.8 26 Note:

The transmitter duty cycle was measured using a spectrum analyser in the time domain and calculated by using the following calculation:

10 log (1 / (On Time / [Period or 100 ms whichever is the lesser])). BLE duty cycle: 10 log (1 / (550.783 s/ 1153.145 s)) = 3.2 dB Test Setup:

EUT Cable Test Receiver Power Supply Page 14 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Duty Cycle (continued) Results:

ISSUE DATE: 28 MAY 2019 Pulse Duration

(s) 1153.145 Period

(s) 550.783 Duty Cycle Correction

(dB) 3.2 Page 15 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 5.2.3. Transmitter Maximum Peak Output Power Test Summary:

ISSUE DATE: 28 MAY 2019 Test Engineer:

Abdoufataou Salifou Test Date:

13 & 14 March 2019 Test Sample Serial Number:

M2MR101000250 Test Site Identification SR 9 FCC Reference:

Part 15.247(b)(3) Test Method Used:

FCC KDB 558074 Section 8.3.1.1 referring ANSI C63.10 Section 11.9.1.1 Environmental Conditions:

Temperature (C):

22.4 & 22.2 Relative Humidity (%):

27 & 28 Notes:

1. Conducted power tests were performed using a spectrum analyser in accordance with FCC KDB 558074 Section 8.3.1.1 referring ANSI C63.10 Section 11.9.1.1 with the RBW DTS bandwidth procedure. 1. The signal analyser resolution bandwidth was set to 3 MHz and video bandwidth of 10 MHz. A peak detector was used, sweep time was set to auto and trace mode was Max Hold. The span was set to 10 MHz. A marker was placed at the peak of the signal and the results recorded in the table below. 2. The spectrum analyser was connected to the RF port on the EUT using suitable attenuation and RF cable. An RF level offset was entered on the spectrum analyser to compensate for the loss of the attenuator and RF cable. 3. The RF port on the EUT was connected to the spectrum analyser using suitable attenuation and RF cable. The measured values takes into consideration the external attenuation correction factors. The RF cable attenuation (0.4 dB@2.4GHz) from the EUT to Analyzer including the 10 dB attenuation at the Spectrum Analyzer input was added as a reference level offset (10.4 dB) to each of the conducted plots. 4. The measurement was made with highest possible duty cycle. 5. The declared antenna gain was added to conducted power to obtain the EIRP. Page 16 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Maximum Peak Output Power (continued) Test setup:

ISSUE DATE: 28 MAY 2019 EUT Cable Test Receiver Power Supply Page 17 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Maximum Peak Output Power (continued) ISSUE DATE: 28 MAY 2019 Results:

Channel Bottom Middle Top Channel Bottom Middle Top Result: Pass Conducted Peak Power

(dBm) Conducted Peak Power Limit

(dBm) 6.2 5.9 5.4 30.0 30.0 30.0 Conducted Peak Power Declared Antenna Gain

(dBm)

(dBi) EIRP

(dBm) De Facto EIRP Limit

(dBm) 6.2 5.9 5.4 0 0 0 6.2 5.9 5.4 36.0 36.0 36.0 Margin

(dB) 23.8 24.1 24.6 Margin

(dB) 29.8 30.1 30.6 Result Complied Complied Complied Result Complied Complied Complied Page 18 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Maximum Peak Output Power (continued) ISSUE DATE: 28 MAY 2019 Bottom Channel Middle Channel Top Channel Page 19 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 5.2.4. Transmitter Radiated Emissions Test Summary:

ISSUE DATE: 28 MAY 2019 Test Engineer:

Krume Ivanov Test Date:

15 March 2019 Test Sample Serial Number:

M2MR101000236 / M2MR101000237 Test Site Identification SR 1/2 FCC Reference:

Parts 15.247(d) & 15.209(a) Test Method Used:

FCC KDB 558074 Sections 8.5 & 8.6 referring ANSI C63.10 Sections 11.10 and 11.12 ANSI C63.10:2013 Sections 6.3 and 6.5 Frequency Range 30 MHz to 1000 MHz Environmental Conditions:

Temperature (C):

Relative Humidity (%):

21 21 Notes:

1. The final measured value, for the given emission, in the table below incorporates the calibrated antenna factor and cable loss. 2. The preliminary scans showed similar emission levels below 1 GHz, for each channel of operation. Therefore final radiated emissions measurements were performed with the EUT set to the bottom channel only. 3. All emissions shown on the pre-scans were investigated and found to be ambient, or > 20 dB below the appropriate limit or below the noise floor of the measurement system. Therefore the highest peak noise floor reading of the measuring receiver was recorded in the table below. 4. All other emissions shown on the pre-scan plots were investigated and found to be ambient, or >20 dB below the applicable limit or below the measurement system noise floor and therefore not recorded. 5. No spurious emissions were detected above the noise floor of the measuring receiver therefore the highest peak noise floor reading of the measuring receiver was recorded as shown in the table below. 6. Measurements below 1 GHz were performed in a semi-anechoic chamber (Asset Number K0001) at a distance of 3 metres. The EUT was placed at a height of 80 cm above the reference ground plane in the centre of the chamber turntable. Maximum emission levels were determined by height searching the measurement antenna over the range 1 metre to 4 metres. 7. Pre-scans were performed and markers placed on the highest measured levels. The test receiver resolution bandwidth was set to 100 kHz and video bandwidth 300 kHz. A peak detector was used, sweep time was set to auto and trace mode was Max Hold. 8. Final measurements were performed on the marker frequencies and the results entered into the table below. The test receiver resolution bandwidth was set to 120 kHz, using a CISPR quasi-peak detector and span big enough to see the whole emission. Page 20 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Radiated Emissions (continued) Test Setup:

ISSUE DATE: 28 MAY 2019 Measurement EUT Filter/Amp Antennas S Semi-Anechoic Chamber Power Supply Test Receiver Page 21 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Radiated Emissions (continued) Results: Bottom Channel ISSUE DATE: 28 MAY 2019 Frequency

(MHz) Antenna Polarization Peak Level

(dBmV/m) Limit

(dBmV/m) 47.370 175.890 Vertical Vertical 16.12 26.08 40.00 43.50 Margin

(dB) 23.88 17.42 Result Complied Complied Plot: 30 MHz 1GHz (bottom channel) V B d n i l e v e L Note: This plot is a pre-scan and for indication purposes only. For final measurements, see accompanying table. Result: Pass Page 22 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Radiated Emissions (continued) Test Summary:

ISSUE DATE: 28 MAY 2019 Test Engineer:

Krume Ivanov Test Date:

13 & 15 March 2019 Test Sample Serial Number:

M2MR101000236 / M2MR101000237 Test Site Identification SR 1/2 FCC Reference:

Parts 15.247(d) & 15.209(a) Test Method Used:

FCC KDB 558074 Sections 8.5 & 8.6 referring ANSI C63.10 Sections 11.10 and 11.12 ANSI C63.10:2013 Sections 6.3 and 6.6 Frequency Range 1 GHz to 25 GHz Environmental Conditions:

Temperature (C):

Relative Humidity (%):

21 21 Notes:

1. The final measured value, for the given emission, in the table below incorporates the calibrated antenna factor and cable loss. 2. All other emissions shown on the pre-scan plot were investigated and found to be ambient or >20 dB below the applicable limit or below the measurement system noise floor. 3. No spurious emissions were detected above the noise floor of the measuring receiver therefore the highest peak noise floor reading of the measuring receiver was recorded as shown in the table above. The peak level was compared to the average limit as opposed to being compared to the peak limit because this is the more onerous limit. 4. The emission shown on the 1 GHz to 4 GHz plot is the EUT fundamental. 5. Pre-scans above 1 GHz were performed in a fully anechoic chamber (Asset Number K0002) at a distance of 3 metres. The EUT was placed at a height of 1.5 metres above the test chamber floor in the centre of the chamber turntable. All measurement antennas were placed at a fixed height of 1.5 metres above the test chamber floor, in line with the EUT. Final measurements above 1 GHz were performed in a semi-anechoic chamber (Asset Number K0001) at a distance of 3 metres. The EUT was placed at a height of 1.5 m above the reference ground plane in the centre of the chamber turntable. Maximum emission levels were determined by height searching the measurement antenna over the range 1 metre to 4 metres. 6. Pre-scans were performed and a marker placed on the highest measured level of the appropriate plot. The test receiver resolution bandwidth was set to 1 MHz and video bandwidth 3 MHz. The sweep time was set to auto. 7. *In accordance with ANSI C63.10 Section 6.6.4.3, Note 1, if the peak measured value complies with the average limit, it is unnecessary to perform an average measurement. 8. The reference level for the emission in the non-restricted band was established by following KDB 558074 Section 8.5 referring Section 11.11 of ANSI C63.10 procedure. 9. **-20 dBc limit applies in non-restricted band as the conducted output power measurements were performed using a peak detector. Page 23 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Radiated Emissions (continued) Results: Peak / Bottom Channel ISSUE DATE: 28 MAY 2019 Frequency

(MHz) Antenna Polarization Peak Level

(dBmV/m) Average Limit

(dBmV/m) Margin

(dB) Result No critical spurious was found Plot: 1 GHz 18GHz (bottom channel) with Peak detector Note: The above plot is a pre-scan and for indication purposes only. For final measurements, see accompanying tables. Result: Pass Page 24 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Radiated Emissions (continued) Results: Peak / Middle Channel ISSUE DATE: 28 MAY 2019 Frequency

(MHz) Antenna Polarity Peak Level

(dBmV/m) Average Limit

(dBmV/m) Margin

(dB) Result No critical spurious was found Plot: 1 GHz 18GHz (middle channel) with Peak detector Note: The above plot is a pre-scan and for indication purposes only. For final measurements, see accompanying tables. Result: Pass Page 25 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Radiated Emissions (continued) Results: Peak / Top Channel ISSUE DATE: 28 MAY 2019 Frequency

(MHz) Antenna Polarization Peak Level

(dBmV/m) Average Limit

(dBmV/m) Margin

(dB) Result Plot: 1 GHz 18GHz (top channel) with Peak detector No critical spurious was found V B d n i l e v e L Note: The above plot is a pre-scan and for indication purposes only. For final measurements, see accompanying tables. Result: Pass Page 26 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Radiated Emissions (continued) Results: Peak / Bottom Channel ISSUE DATE: 28 MAY 2019 Frequency

(MHz) Antenna Polarization Peak Level

(dBmV/m) Average Limit

(dBmV/m) Margin

(dB) Result No critical spurious was found Plot: 18 GHz 25GHz (bottom channel) Note: The above plots are pre-scans and for indication purposes only. For final measurements, see accompanying tables. Result: Pass Page 27 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 5.2.5. Transmitter Band Edge Radiated Emissions Test Summary:

ISSUE DATE: 28 MAY 2019 Test Engineer:

Krume Ivanov Test Date:

12 & 15 March 2019 Test Sample Serial Number:

M2MR101000236 / M2MR101000237 Test Site Identification SR 1/2 FCC Reference:

Parts 15.247(d) & 15.209(a) Test Method Used:

FCC KDB 558074 Sections 8.7 referring ANSI C63.10:2013 Section 6.10.4, 6.10.5 & Section 11.11 Environmental Conditions:

Temperature (C):

Relative Humidity (%):

21 21 Notes:

1. The final measured value, for the given emission, in the table below incorporates the calibrated antenna factor and cable loss. 2. The maximum peak conducted output power was previously measured. In accordance with FCC KDB 558074 Section 8.7 lower band edge measurement was performed with a peak detector and the -20 dBc limit applied. 3. As the lower band edge falls within a non-restricted band, only peak measurements are required. The test receiver resolution bandwidth was set to 100 kHz and video bandwidth 300 kHz. A peak detector was used, sweep time was set to auto and trace mode was Max Hold. The test receiver was left to sweep for a sufficient length of time in order to maximise the carrier level and out-of-band emissions. A marker and corresponding reference level line were placed on the peak of the carrier. Marker frequencies and levels were recorded. 4. As the upper band edge falls within a restricted band both peak and average measurements were recorded by placing a marker at the edge of the band. For peak measurements the test receiver resolution bandwidth was set to 1 MHz and the video bandwidth 3 MHz. A peak detector was used, sweep time was set to auto and trace mode was Max Hold. For average measurements the test receiver resolution bandwidth was set to 1 MHz and the video bandwidth 10 Hz. A peak detector was used, sweep time was set to auto and trace mode was Max Hold. The test receiver was left to sweep for a sufficient length of time in order to maximise the carrier level and out-of-band emissions. A marker was placed on the band edge spot frequencies and a second marker placed on the highest emission level in the adjacent restricted band of operation (where a higher level emission was present). Marker frequencies and levels were recorded. 5. There is a restricted band 10 MHz below the lower band edge. The test receiver was set up as follows:

the RBW set to 1 MHz, the VBW set to 3 MHz, with the sweep time set to auto couple. Peak and average measurements were performed with their respective detectors. Markers were placed on the highest point on each trace. 6. The measured Average Level has been corrected by adding Duty Cycle Correction Factor (3.2 dB) into it. Page 28 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Band Edge Radiated Emissions (continued) Test Setup:

ISSUE DATE: 28 MAY 2019 Measurement EUT Filter/Amp Antennas S Semi-Anechoic Chamber Power Supply Test Receiver Page 29 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Band Edge Radiated Emissions (continued) Results: Lower Band Edge/Peak Frequency

(MHz) Peak Level

(dBmV/m)

-20 dBc Limit

(dBmV/m) 2400.0 2384.4 40.54 36.83 70.00 70.00 Results: Upper Band Edge / Restricted Band/Peak Frequency

(MHz) 2483.83 2483.50 Peak Level

(dBmV/m) Peak Limit

(dBmV/m) 51.94 52.63 74.0 74.0 Results: Upper Band Edge / Restricted Band/Average Margin

(dB) 29.46 33.17 Margin

(dB) 22.06 21.37 ISSUE DATE: 28 MAY 2019 Result Complied Complied Result Complied Complied Measured Corrected Average Level Average Level

(dBmV/m)

(dBmV/m) Average Limit

(dBmV/m) Margin

(dB) 40.70 44.15 43.9 47.35 54.0 54.0 10.1 6.65 Result Complied Complied Frequency

(MHz) 2483.83 2483.50 Results: 2310 to 2390 MHz Restricted Band/Peak Frequency

(MHz) Peak Level

(dBmV/m) Peak Limit

(dBmV/m) 2343.58 57.38 74.0 Margin

(dB) 16.62 Result Complied Results: 2310 to 2390 MHz Restricted Band/Average Frequency

(MHz) Measured Corrected Average Level Average Level

(dBmV/m)

(dBmV/m) Average Limit

(dBmV/m) Margin

(dB) Result 2389.23 44.40 47.60 54.0 6.4 Complied Page 30 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 Transmitter Band Edge Radiated Emissions (continued) ISSUE DATE: 28 MAY 2019 Lower Band Edge Peak Measurement Upper Band Edge Peak & Average Measurement 2310 MHz to 2390 MHz Restricted Band Plot Page 31 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 6. Measurement Uncertainty ISSUE DATE: 28 MAY 2019 The expression of uncertainty of a measurement result allows realistic comparison of results with reference values and limits given in specifications and standards. The uncertainty of the result may need to be taken into account when interpreting the measurement results. The reported expanded uncertainties below are based on a standard uncertainty multiplied by an appropriate coverage factor such that a confidence level of approximately 95% is maintained. For the purposes of this document approximately is interpreted as meaning effectively or for most practical purposes. Measurement Type Conducted Maximum Peak Output Power Radiated Spurious Emissions Band Edge Radiated Emissions Minimum 6 dB Bandwidth Spectral Power Density Confidence Level

(%) 95%

95%

95%

95%

95%

Calculated Uncertainty 0.59 dB 3.10 dB 3.10 dB 0.87 %

0.59 dB The methods used to calculate the above uncertainties are in line with those recommended within the various measurement specifications. Where measurement specifications do not include guidelines for the evaluation of measurement uncertainty the published guidance of the appropriate accreditation body is followed. Page 32 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 7. Used equipment Test site: SR 1/2 ISSUE DATE: 28 MAY 2019 ID Manufacturer Type Model Serial No. Calibration Date Cal. Cycle 377 BONN Elektronik Amplifier, Low Noise Pre BLMA 0118-1A 025294B 7/12/2018 383 Rohde &

Schwarz Antenna, Rod HFH2-Z1 890151/11 7/14/2017 423 Bonn Elektronik 424 EMCO 460 Deisl 465 Schwarzbeck Amplifier, Low Noise Pre Antenna, Horn Turntable Antenna, Trilog Broadband BLMA 1840-1A EMCO 3116 DT 4250 S VULB 9168 055929 00046537 9168-240 100296 7/12/2018 7/28/2016 n/a 8/8/2016 7/20/2016 011/7180311 029/7180311 n/a n/a 100244/040 7/12/2018 Antenna, Log.- Periodical HL050 antenna mast, tilting Controller Receiver TAM 4.0-E NCD ESU 40 495 Rohde &

Schwarz 587 Maturo 588 Maturo 591 608 615 Rohde &

Schwarz Rohde &

Schwarz Wainwright Instruments Switch Matrix OSP 120 101227 4/8/2014 Highpass Filter 1GHz WHKX12-

3 Lab verification 620 Bonn Elektronik 628 Maturo 629 Maturo pre-amplifier Antenna mast Kippeinrichtung BLNA 0110-01N CAM 4.0-P KE 2.5-R-M 1510111 224/19590716 MAT002 7/12/2017 n/a n/a Test site: SR 9 ID Manufacturer Type 636 Rohde & Schwarz switching unit 637 Rohde & Schwarz Spectrum Analyzer Model OSP120 FSV40 101698 101587 7/12/2018 7/11/2018 Serial No. Calibration Date Cal. Cycle 423 Bonn Elektronik Amplifier, Low Noise Pre BLMA 1840-1A 55929 7/12/2018 195 SPS Power Supply TOE8842-24 51455 Verified by Multimeter 216 Agilent Multimeter 34401A US36017458 7/11/2017 12 24 12 24 n/a 36 36 n/a n/a 12 60 n/a 24 n/a n/a 12 12 24 12 24 Page 33 of 34 FCC 15.247 BT LE - Template Vers. 1.4 UL INTERNATIONAL GERMANY GMBH TEST REPORT NO: UL-RPT-RP-12741851-316-FCC TEST REPORT VERSION 1.0 8. Report Revision History Revision Details Page No(s) Clause Details

-

-

Initial Version Version Number 1.0 ISSUE DATE: 28 MAY 2019 Page 34 of 34 FCC 15.247 BT LE - Template Vers. 1.4

Workaround GmbH UL-RPT-RP-12741851-316 FCC ID: 2AOJL-MARK-2 IC ID: 23450-MARK2 Test Setup Photographs for the MARK 2 MR 1. Radiated Emissions 1.1. Configuration 1: Setup for masurement from 30 MHz to 1 GHz Photo 1: MARK 2 MR + Glove (Long Life) Photo 2: MARK 2 MR + Glove (Long Life) UL International Germany GmbH 1 Workaround GmbH UL-RPT-RP-12741851-316 FCC ID: 2AOJL-MARK-2 IC ID: 23450-MARK2 Radiated Emissions (continued) 1.2. Configuration 1: Setup for masurement from 1 GHz to 18 GHz Photo 3: MARK 2 MR + Glove (Long Life) Photo 4: MARK 2 MR + Glove (Long Life) UL International Germany GmbH 2 Workaround GmbH UL-RPT-RP-12741851-316 2. Conducted Measurement FCC ID: 2AOJL-MARK-2 IC ID: 23450-MARK2 Photo 5: MARK 2 MR + Glove (Long Life) UL International Germany GmbH 3