FCC ID: 2ADAT-TCAF1 TCAF1 Torquemeter

Mounting instructions Torque transducer Flexplate TCA MPZ1901037 HBM: Business Document Directory 1 Safety Instructions ........................................................................................................................................ 3 2 Markings used ............................................................................................................................................... 1 2.1 2.2 Symbols on the transducer .................................................................................................................. 1 The markings used in this document ................................................................................................. 2 3 Application...................................................................................................................................................... 3 4 Structure and mode of operation ................................................................................................................ 4 5 Mechanical installation ................................................................................................................................. 6 5.1 Important precautions during installation .......................................................................................... 6 5.2 Conditions on site ................................................................................................................................. 7 5.3 5.4 Installation orientation .......................................................................................................................... 7 Installation .............................................................................................................................................. 7 5.6 Mounting the rotor ................................................................................................................................. 8 4.6 Installing the telemetry system .............................................................................................................. 9 4.6.1 Stator antenna and stator unit....................................................................................................... 11 6 General information .................................................................................................................................... 12 6.2 6.3 6.4 EMC protection.................................................................................................................................... 12 Evaluation unit ..................................................................................................................................... 14 Supply voltage ................................................................................................................................... 17 6.5 Use of EMI suppressor ...................................................................................................................... 18 7 Shunt signal ................................................................................................................................................. 20 8 Functionality testing .................................................................................................................................... 21 9 Maintenance ................................................................................................................................................ 22 10 Waste disposal and environmental protection .................................................................................... 22 11 12 13 14 Dimensions .............................................................................................................................................. 23 Specifications .......................................................................................................................................... 24 Supplementary technical information................................................................................................... 25 Declaration of conformity ....................................................................................................................... 26 HBM: Business Document 1 Safety Instructions FCC Compliance & Advisory Statement Important Any changes or modification not expressly approved in writing by the party responsible for compliance could void the users authority to operate the device. Where specified additional components or accessories elsewhere defined to be used with the installation of the product, they must be used in order to ensure compliance with FCC regulations. 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. The FCC identifier or the unique identifier, as appropriate, must be displayed on the device. Model TCA Measuring range 800 Nm FCC ID 2ADAT-TCAF1 Label example with FCC ID. Fig 1.1:

Location of the label on the stator of the device HBM: Business Document Fig. 1.2 Example of the label Appropriate use Flexplates are used exclusively for torque measurement tasks as well as control and adjustment tasks directly connected thereto. Use for any additional purpose shall be deemed to be not in accordance with the regulations. Stator operation is only permitted when the rotor is installed. The flexplate may only be installed by qualified personnel in compliance with the specifications and with the safety requirements and regulations of these mounting instructions. It is also essential to observe the applicable legal and safety regulations for the application concerned. The same applies to the use of accessories. The flexplate is not intended for use as a safety component. Please also refer to the section: Additional safety precautions". Proper and safe operation requires proper transportation, correct storage, siting and mounting, and careful operation. Loading capacity limits The data in the technical data sheets must be complied with when using the flexplate. In particular, the respective maximum loads specified must never be exceeded. The values stated in the specificationsmust not be exceeded, for example, for limit torque, longitudinal limit force, lateral limit force or limit bending moment, torque oscillation width, breaking torque, temperature limits, the limits of the electrical loading capacity. HBM: Business Document Use as a machine element The flexplate can be used as a machine element. When used in this manner, it must be noted that, to favor greater sensitivity, the transducer is not designed with the safety factors usual in mechanical engineering. Please refer here to the section Loading capacity limits", and to the specifications. Accident prevention According to the prevailing accident prevention regulations, once the flexplates have been mounted, a covering agent or cladding has to be fitted as follows:

The covering agent or cladding must not be free to rotate. The covering agent or cladding should prevent squeezing or shearing and provide protection against parts that might come loose. Covering agents and cladding must be positioned at a suitable distance or be so arranged that there is no access to any moving parts within. Covering agents and cladding must still be attached even if the moving parts of the torque flange are installed outside people's movement and working range. The only permitted exceptions to the above requirements are if the flexplate is already fully protected by the design of the machine or by existing safety precautions. Additional safety precautions The flexplate cannot (as a passive transducer) implement any (safety relevant) cutoffs. This requires additional components and constructive measures for which the installer and operator of the plant is responsible. The layout of the electronics conditioning the measurement signal should be such that measurement signal failure does not cause damage. The scope of supply and performance of the flexplate covers only a small area of torque measurement technology. In addition, equipment planners, installers and operators should plan, implement and respond to safety engineering considerations in such a way as to minimize residual dangers. Pertinent national and local regulations must be complied with. General dangers of failing to follow the safety instructions The flexplate corresponds to the state of the art and is failsafe. Flexplates can give rise to residual dangers if they are incorrectly operated or inappropriately mounted, installed and operated by untrained personnel. Every person involved with siting, startingup, operating or repairing a torque flange must have read and understood the mounting instructions and in particular the technical safety instructions. The flexplate can be damaged or destroyed by non-designated use of the flexplate or by non-compliance with the mounting and operating instructions, these safety instructions or any other applicable safety regulations (safety and accident prevention regulations), HBM: Business Document when using the flexplate. Flexplates can break, particularly in the case of overloading. The breakage of a flexplate can also cause damage to property or injury to persons in the vicinity of the flexplate. If the flexplate is not used according to the designated use, or if the safety instructions or specifications in the mounting and operating instructions are ignored, it is also possible that the flexplate may fail or malfunction, with the result that persons or property may be adversely affected (due to the torques acting on or being monitored by the flexplate). Conversions and modifications The flexplate must not be modified from the design or safety engineering point of view except with our express agreement. Any modification shall exclude all liability on our part for any damage resulting therefrom. Selling on If the flexplate is sold on, these mounting instructions must be included with the flexplate. Qualified personnel Qualified personnel means persons entrusted with siting, mounting, starting up and operating the product, who possess the appropriate qualifications for their function. This includes people who meet at least one of the three following requirements:

- Knowledge of the safety concepts of automation technology is a requirement and as project personnel, you must be familiar with these concepts.

- As automation plant operating personnel, you have been instructed how to handle the machinery. You are familiar with the operation of the equipment and technologies described in this documentation.

- As commissioning engineers or service engineers, you have successfully completed the training to qualify you to repair the automation systems. You are also authorized to activate, ground and label circuits and equipment in accordance with safety engineering standards. HBM: Business Document 1 2 Markings used 2.1 Symbols on the transducer Label example Label example with FCC ID number, Location of label on the stator unit. Symbol:

Meaning: Read and note the data in this manual Symbol:

Meaning: Statutory waste disposal mark The electrical and electronic devices that bear this symbol are subject to the European waste electrical and electronic equipment directive 2002/96/EC. The symbol indicates that, in accordance with national and local environ-

mental protection and material recovery and recycling regulations, old devices that can no longer be used must be disposed of separately and not with nor-

mal household garbage, see also Chapter 10. HBM: Business Document 2.2 The markings used in this document 2 Important instructions for your safety are specifically identified. It is essential to follow these instructions in order to prevent accidents and damage the property. Symbol Meaning This marking warns of a potentially dangerous situation in which failure to comply with safety requirements can result in death or serious physical injury. This marking warns of a potentially dangerous situation in which failure to comply with safety requirements can result in slight or moderate physical injury. This marking draws your attention to a situation in which failure to comply with safety requirements can lead to damage to property. This marking draws your attention to important information about the product or about handling the product. This marking indicates application tips or other information that is useful to you. This marking draws your attention to information about the product or about handling the product. Italics are used to emphasize and highlight texts. CAUTION NOTE Important Tip Emphasis HBM: Business Document 3 3 Application The flexplate has especially been developed in order to measure the torque between motor and transducer in automatic transmissions. Measurements and physical attributes almost correspond with the original component, compact rotor electronic and rotor-/stator antenna, technical data, as supply voltage 9 36 V DC; analogue output 0 10 V DC and temperature range up to 120C are adapted to the conditions in the vehicle. Advantages:

Measurements possible at serial-produced motors and transmissions No/little falsification of measured values, e.g. by additional mass moment of inertia or stiffness. Measurements possible under real conditions during drive-operation Flexplate HBM: Business Document 4 4 Structure and mode of operation The torque transducer consists of two separate parts: the rotor and the stator. The rotor comprises the measuring body and the signal transmission elements. Strain gauges (SGs) are installed on the measuring body. The rotor electronics generates the bridge excitation voltage and transmits the measuring signal to the stator unit and are located at the outer circumference of flex plate. Diametric on the opposite side a balancing weight is mounted. The wireless transmission of power supply and measuring signal occurs via rotor and stator antenna made from a printed board circuit. The rotor and stator antenna have to be aligned on the same axe. The stator antenna is connected on a housing that contains the electronics for the automatic self-tuning function of the antenna. The connection cable, 5m long, connects the stator housing with the evaluation unit which contains the electronics for voltage adaptation and the signal conditioning. Connectors and screw terminals for the torque signal and the voltage supply are located on the evaluation unit. The stator antenna ring should be mounted more or less concentrically with some gap of 3mm to the rotor antenna (see chapter 4). HBM: Business Document 5 Fig. 4.1:

Transducer with stator antenna and evaluation unit Fig. 4.2:

EMI suppressor Important The use of the shielding plates is important to ensure compliance with FCC regulations. If the shielding plates has to be removed for any purpose (e.g. installation or maintenance), they must be replaced in the original position before the product is used. HBM: Business Document 6 5 Mechanical installation 5.1 Important precautions during installation NOTE A flexplate is a precision measurement element and therefore needs careful handling. Dropping or knocking the flexplate may cause permanent damage. Make sure that the flexplate cannot be overloaded, even while it is being mounted. Handle the flexplate with care. Check the effect of bending moments, critical rotational speeds and natural torsional oscillations, to prevent the transducer being overloaded by increases in resonance. Make sure that the flexplate cannot be overloaded. WARNING There is a danger of the flexplate breaking if it is overloaded. This can cause danger for the operating personnel of the system in which the flexplate is installed. Implement appropriate safety measures to avoid overloads and to protect against resulting dangers. If alternating loads are expected, use threadlocker (medium strength, e.g. LOCTITE No. 242) to glue the screws into the counter thread to exclude prestressing loss due to screw slackening. Comply with the mounting dimensions to enable correct operation. HBM: Business Document 7 Important Even if the unit is installed correctly, the zero-point adjustment made at the factory can shift by up to approx. 0.5% of the characteristic value. If this value is exceeded, we advise you to check the mounting conditions. If the residual zero offset when the unit is removed is greater than 1% of the sensitivity, please send the transducer back to the Darmstadt factory for testing. 5.2 Conditions on site The flexplate must be protected against coarse dirt particles, dust, oil, solvents and humidity. There is wide ranging compensation for the effects of temperature on the out-

put and zero signals of the flexplate (see Specifications" section). If there are no static temperature ratios, for example, because of the temperature differences between the measuring body and the flange, the values given in the specifications can be exceeded. In this case, ensure static temperature ratios by cooling or heating, depending on the application. As an alternative, check if thermal decoupling is possible, e.g. by means of heat radiating elements such as multiple disc couplings. 5.3 Installation orientation The torque flange can be installed with any orientation. With clockwise torque, when using the voltage output mode a positive output signal (0 V+10 V) or when using the frequency output mode an output frequency of 10 kHz 15 kHz is present on the output (corresponding zero to nominal torque load). 5.4 Installation Please first mount the rotor to its final position. The stator antenna is flexible mountable and can be installed afterwards. HBM: Business Document 5.6 Mounting the rotor 8 1. Clean the plane surfaces of the flexplate and the counter flange. For safe torque transfer, the faces must be clean and free from grease. Use a piece of cloth or paper soaked in solvent. Make sure that no solvent drips into the inside of the transducer and that the transmitter coils are not damaged during cleaning. Important If alternating loads are expected, use threadlocker (medium strength, e.g. LOCTITE No. 242) to glue the screws into the counter thread to exclude prestressing loss due to screw slackening. 2. Fasten all screws with the specified torque. Important Keep them in a safe place for future dismounting. HBM: Business Document 4.6 Installing the telemetry system The telemetry system consists of the following component parts:

9 Rotor antenna Stator antenna (2 pieces) Stator unit Evaluation unit Connection cable EMI suppressor The stator antenna (pcb board) is to be mounted on the engine on the designated place with small screws in adequate length or an adequate epoxy glue (for example HBMs X-280). The shape of this pcb board must be fitted to the surface of engine for example with a file before fixation. This is necessary for not overtop to much the engine and to have the right gap between rotor and stator antenna after mounting the assembly. HBM: Business Document 10 Important Do not bend the connection cable Do not shorten or stretch the connection cable Do not guide the cable close to energy- or power circuit lines The stator antenna has to be mounted directly above the rotor antenna The stator antenna has to be mounted in the middle of the adjustment range of the rotor antenna The stator antenna must not touch the rotor antenna CAUTION At all mounting- dismounting or repair operations, switch of the power supply of the system. Connectors must not be under electric tension while it will be connected or disconnected There is a high current flow through the telemetry system. The entire system heats up accordingly. HBM: Business Document Stator antenna and stator unit 4.6.1 The stator antenna is connected to the stator unit with a twisted cable pair

(screw tightening torque 5Nm). The stator unit can be positioned and mounted flexibly according to the cable length. The stator unit is connected to the evaluation unit with a special cable of 5m length. 11 NOTE When you connect the stator antenna, please take regard to a stress relief Use thread locker (medium strength, e.g. LOCTITE No. 242) to glue the screws into the counter thread to exclude pre-stressing loss due to screw slackening. Install and fasten the connection cables so that this will not be damaged by twirling parts. Align the stator like shown in the picture below Gap 3mm HBM: Business Document 12 6 General information With extension cables, make sure that there is a proper connection with minimum contact resistance and good insulation. All cable connectors or swivel nuts must be fully tightened. 6.2 EMC protection The product offered is a special assembly for stationary systems that is not available on the general market or a transducer for installation by system integrators and plant manufacturers. According to EMVG1 12 paragraph 2 and Directive 2004/1008/EC article 13 paragraph 1 this product does not require an EC declaration of conformity nor the CE marking. This product is intended exclusively for subsequent processing by companies or persons that are experts in the field of electromagnetic compatibility (EMC). Relevant EMC protection requirements relating to the product offered are met when the following Installation notes are observed and implemented. Installation notes Please note the following points during installation and use:

It is essential to observe the specifications and notes provided in the operating manual and the data sheet Connecting cables, in particular the measuring and control cables, need to be shielded Make sure that the transducer and shielding are connected extensively to ground. Ensure an interference-free environment, avoid radiation interference Devices connected to this product need to comply with protection requirements per EMVG (Gesetz ber die elektromagnetische Vertrglichkeit von Gerten / law on electromagnetic compatibility of instruments). You have to install the shield of the connection cable at the shielded housing of the electronics, to achieve the EMC-protection of the measuring chain. Make sure that the transducer and shielding are connected extensively to ground. HBM: Business Document Important 13 Electrical and magnetic fields often induce interference voltages in the measuring circuit. Therefore:

Use shielded, low-capacitance measurement cables only Only use plugs that meet EMC guidelines. Do not route the measurement cables parallel to power lines and control circuits. If this is not possible, protect the measurement cable with e.g. steel conduit. Avoid stray fields from transformers, motors and contact switches. Do not ground the transducer, amplifier and indicator more than once. Connect all devices in the measurement chain to the same grounded conductor. In the case of interference due to potential differences (compensating currents), supply voltage zero and housing ground must be disconnected on the amplifier and a potential equalization line established between the evaluation unit and the amplifier housing (copper conductor, minimum 10 mm wire cross-section). Should differences in potential between the machine rotor and stator, because of unchecked leakage, for example, cause interference, this can usually be overcome by connecting the rotor definitively to ground, e.g. with a wire loop. The stator must be connected to the same

(ground) potential. HBM: Business Document 6.3 Evaluation unit 14 Fig. 6.1:

Front view of the evaluation unit HBM: Business Document Functional overview of the evaluation unit (See fig. 6.1) Item Function description 15 1 2 3 4 5 6 7 8 9 10 11 12 13 Display Shows analog output voltage. For monitoring only - accurate measurement values to be read out on the output BNC connector LED power The LED indicates the on/off status of the device LED RF-level The LED indicates an acceptable RF signal strength from the transmitter BNC output Voltage 10V / frequency 10kHz5kHz (select with switch no. 12) Potentiometer offset Potentiometer for offset correction within the range of 1V Main switch On / off switch (self-locking, pull to switch) Supply voltage (+) 9 V.36 V DC Supply voltage GND RF output (+) Analog output correla1ng to the strength of the received RF-Signal. Acceptable RF-

Level is received, when voltage is above 3,4V RF output GND Ground connec1on of the telemetry system. Connect with main ground of vehicle / test field Stator-connection Female connector for cable to stator unit Analog / frequency output switch Switch for setting the output format of the measurement signal. Analog: 10V, frequency: 10kHz 5kHz TTL Filter switch Changes the filter frequency on output between 1.000Hz and 100Hz (-3dB). For slow signals set on 100 Hz to get extra low noise signals. 14 Mode switch measure / offset Switch up to measure: Normal measuring mode. The offset can be adjusted with the potentiometer Switch down to offset: The Control Unit generates internally an exact 0V output signal which is only affected by the offset potentiometer. So the offset value can be precisely determined and re-adjusted by setting any desired value. 15 Shunt cal-function on (push button) Push button to release shunt cal-function. Cal-function will be released for app. 5 seconds (the orange LED above the button is activated for this time span). Table 6.1: Functions of the evaluation unit HBM: Business Document 16 Technical details Supply voltage 936 VDC Max. power consumption 30 VA Signal bandwidth Voltage output Frequency output Switchable 1000 Hz / 100Hz 10 V 5 15 kHz TTL Signal-to-noise ratio 63dB (1000Hz) / 83dB (100Hz) Signal transit time 450s Wireless shunt calibration Key button at control unit Protection class IP40 Weight Temperature range 700 grams

-10 +70 C Table 6.2: Technical details of the evaluation unit Dimensions of the evaluation unit Fig. 6.2:

Main dimensions of the evaluation unit HBM: Business Document 175,0 mm191,0 mm60,5 mm113 mm 17 6.4 Supply voltage The transducer must be operated with a separated extra low voltage (supply voltage 9 36 VDC). The supply voltage is electrically isolated from signal out puts and shunt signal inputs. Connect a separated extra low voltage of 9 V 36 V DC to bracket 7

(+) and bracket 8 (-) of the evaluation unit. The cable can be up to 50m long for voltages 24V, otherwise it can be up to 20m long. The current during operation is about 0,70,9A. Important At the instant of power-up, a current of up to 1,5 A may flow, which could switch off power packs with electronic current limiters. HBM: Business Document 6.5 Use of EMI suppressor To suppress high frequencies two EMI suppressors on the cable between rotor and stator has to be used. Use at least 3 loops of the cable for the ring EMI suppressor. The snap ferrite has to be mounted on the cable directly behind the connector at the Axon control unit. 18 Fastening must be done in an area not subject to mechanical loads (i.e. no unwanted vibrations, etc.) using cable ties fit for the specific application. Fig 6.1:

Installation example EMI suppressor Information Consider longer cable of approximately 40cm due to the installation of the EMI suppressor. The max. distance of EMI suppressor to connector is 500mm. If the EMI suppressors have to be removed for any purpose (e.g. for maintenance), they must be replaced on the cable. Use only EMI suppressor of the correct type. HBM: Business Document 19 Ring ferrite:

Type: Vitroperm 500F Model No.: T60006-L2063-W517 Size: external diameter x internal diameter x height = 63 x 50 x 25 Snap Ferrite:

Type: Wrth 742 711 31 Fig 6.2:

Picture of installation example of both EMI suppressors Important The use of the EMI suppressor on the power cable is mandatory to ensure compliance with FCC regulations. HBM: Business Document 20 7 Shunt signal The special torque flange delivers an electrical shunt signal that can be activated from the evaluation unit for measuring chains with HBM components. The transducer generates a shunt signal of about 50% of the nominal (rated) torque; the precise value is specified on the type plate. After activation of push button no. 15 (see Fig. 6.1), the shunt signal is activated for a time span of 5s. Adjust the amplifier output signal to the shunt signal supplied by the connected transducer to adapt the amplifier to the transducer. The transducer should not be under load when the shunt signal is being measured, as the shunt signal is mixed additively. Triggering the shunt signal Push button no. 15 (see Fig. 6.1) on the evaluation unit to activate the shunt signal for a time span of 5s. HBM: Business Document Information 8 Functionality testing You can check the functionality of the rotor and the stator from the LEDs on the evaluation unit. 21 Fig. 8.1: LEDs on the evaluation unit LED Color Significance LED no. 2

(power status) Green (permanently lit) normal operation The main switch (no. 6 in Fig. 6.1) is on and the evaluation unit is under power Off (not lit) The main power is off LED no. 3

(RF level status) Green (permanently lit) normal operation The LED indicates an acceptable RF signal strength Off (not lit) LED

(cal-function status) Off (not lit) normal operation The RF signal strength is too low, the transmission between rotor and stator is broken. Check rotor / stator alignment The shunt signal is not active. Orange (permanently lit) The shunt signal is active as long as the LED is lit. HBM: Business Document LED no. 2 (green),power status LED no. 3 (green),RF level status LED (orange),cal-function status 9 Maintenance The torque transducer is maintenancefree. 22 10 Waste disposal and environmental protection All electrical and electronic products must be disposed of as hazardous waste. The correct disposal of old equipment prevents ecological damage and health hazards. Symbol:

Meaning: Statutory waste disposal mark The electrical and electronic devices that bear this symbol are subject to the European waste electrical and electronic equipment directive 2002/96/EC. The symbol indicates that, in accordance with national and local environ-

mental protection and material recovery and recycling regulations, old devices that can no longer be used must be disposed of separately and not with nor-

mal household garbage. As waste disposal regulations may differ from country to country, we ask that you contact your supplier to determine what type of disposal or recycling is legally applicable in your country. Packaging The original packaging of HBM devices is made from recyclable material and can be sent for recycling. Store the packaging for at least the duration of the warranty. In the case of complaints, the torque flange must be returned in the original packaging. For ecological reasons, empty packaging should not be returned to us. HBM: Business Document 11 Dimensions 23 HBM: Business Document 24 12 Specifications Type Nominal torque Mnom Measurement bandwidth Sensitivity tolerance (deviation of the actual output quantity at Mnom from the nominal (rated) sensitivity) Thermal effects per 10 K in the nominal

(rated) temperature range on the output signal, relative to the actual value of the signal spread Linearity deviation including hysteresis, relative to the nominal (rated) sensitivity Rel. standard deviation of repeatability Protection class acc. EN 60529 Nominal (rated) temperature range

(continuous) Short time operating temperature Storage temperature range Temperature range of evaluation unit Load limits 1) Limit torque Max. limit load of measuring body 2) Breaking torque (static) Longitudinal limit force (static) Lateral force limit (static) Bending limit moment (static) Maximal speed Balancing quality Nm kHz

%

%

%

%

C C C C

%

%

%

N N Nm rpm G Customized flexplate MPZ1901037 800 1 1

< 0,1

< 0,1

< 0,05 (typical 0,03) IP 54

+10 ... +120

-10 ... +125

-20 ... +120

-20 +75 150 200 tbd tbd tbd tbd 7000 2,5 1) Each type of irregular stress (bending moment, lateral or longitudinal force, exceeding nominal (rated) torque) can only be permitted up to its specified static load limit, provided none of the others can occur at the same time. If this condition not met, the limit values must be reduced. If 30% of the bending limit moment and lateral limit force occur at the same time, only 40% of the longitudinal forces is permissible and the nominal (rated) torque must not be exceeded. The permissible bending moments, longitudinal forces and lateral forces can affect the measurement result by approx. 1% of the nominal (rated) torque. The load limits only apply for the nominal (rated) temperature range. At temperature <10C, the load limits must be reduced by approx. 30%

(viscosity reduction). 2) The data refer to static loading of the measuring body, not the screw connections. 3) The nominal (rated) torque must not be exceeded HBM: Business Document 25 13 Supplementary technical information To ensure that the flexplate retains its characteristics once it is installed, we recommend that the customer also chooses the specified form and position tolerances, surface quality and hardness (42+4 HRC) for the connections provided. HBM: Business Document 14 Declaration of conformity 26 HBM: Business Document 27 Hottinger Baldwin Messtechnik GmbH. Subject to modifications. All product descriptions are for general information only. They are not to be understood as a guarantee of quality or durability. Hottinger Baldwin Messtechnik GmbH. nderungen vorbehalten. Alle Angaben beschreiben unsere Produkte in allgemeiner Form. Sie stellen keine Beschaffenheits- oder Haltbarkeitsgarantie im Sinne des 443 BGB dar. Hottinger Baldwin Messtechnik GmbH Im Tiefen See 45 64293 Darmstadt Germany Tel. +49 6151 803-0 Fax: +49 6151 803-9100 Email: info@hbm.com www.hbm.com HBM: Business Document

ANNEX 2 TO TEST REPORT # EMCC-040197.1AB, 2019-11-12 PAGE 1 OF 4 EXTERNAL PHOTOGRAPHS OF EQUIPMENT UNDER TEST EQUIPMENT UNDER TEST:

Trade Name:

Type, Serial Number(s):

Application:

FCC ID:

Manufacturer:

Address:

Phone:

E-Mail:

RELEVANT STANDARD(S) :

MEASUREMENT PROCEDURE: :

TCA MPZ1901037 MPZ1901037, 232840004 Low Power Transceiver 2ADAT-TCAF1 Hottinger Baldwin Messtechnik GmbH Im Tiefen See 45 64293 Darmstadt GERMANY

+49 6151 803-8483 Janis.Butz@hbm.com 47 CFR 15.203, 15.207, 15.209 ANSI C63.10-2013 ILLUSTRATION LIST ANNEX 2 Photograph A2-1: EUT on wooden support connected to stator unit Photograph A2-2: Detail on stator and rotor Photograph A2-3: EUT with stator unit connected with connection cable and ferrite with 3 turns Photograph A2-4: Sample of a stator antenna Photograph A2-5: Stator unit, type JX-SR70T Photograph A2-6: Label of stator unit, type JX-SR70T 2 2 3 3 4 4 EMCCons DR. RAEK GmbH & Co. KG Boelwiese 8 91320 Ebermannstadt Germany 040197.1AB Telephone:

Telefax:

Mail:

Web:

+49 9194 7262-0

+49 9194 7262-199 emc.cons@emcc.de http://www.emcc.de Annex 2 to Test Report # EMCC-040197.1AB Page 2 of 4 Issue Date: 2019-11-12 Test on Hottinger Baldwin Messtechnik GmbH MPZ1901037 to 47 CFR 15.203, 15.207, 15.209 Photograph A2-1: EUT on wooden support connected to stator unit EMCCons DR. RAEK GmbH & Co. KG 040197.1AB Photograph A2-2: Detail on stator and rotor Annex 2 to Test Report # EMCC-040197.1AB Page 3 of 4 Issue Date: 2019-11-12 Test on Hottinger Baldwin Messtechnik GmbH MPZ1901037 to 47 CFR 15.203, 15.207, 15.209 Photograph A2-3: EUT with stator unit connected with connection cable and ferrite with 3 turns EMCCons DR. RAEK GmbH & Co. KG 040197.1AB Photograph A2-4: Sample of a stator antenna Annex 2 to Test Report # EMCC-040197.1AB Page 4 of 4 Issue Date: 2019-11-12 Test on Hottinger Baldwin Messtechnik GmbH MPZ1901037 to 47 CFR 15.203, 15.207, 15.209 Photograph A2-5: Stator unit, type JX-SR70T Photograph A2-6: Label of stator unit, type JX-SR70T EMCCons DR. RAEK GmbH & Co. KG 040197.1AB

Internal Pictures Rotor FCC ID: 2ADAT-TCAF1 IC:

Rotor side A including rotor antenna Rotor side B c i l b u p

:

M B H Managing Director: Andreas Hllhorst Chairman of the Board: Eoghan OLionaird Registered at Darmstadt HRB 1147 Stator c i l b u p

:

M B H Managing Director: Andreas Hllhorst Chairman of the Board: Eoghan OLionaird Registered at Darmstadt HRB 1147