TIA-5050-2018 Test Volume Control System ISO9001

Product Details:

Place of Origin: DONGGUAN
Brand Name: CSARBELL
Certification: ISO9001
Model Number: C5012

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Minimum Order Quantity: 1
Price: 50000000
Packaging Details: 2000*2000*2000CM
Delivery Time: 30DAY
Payment Terms: T/T
Supply Ability: 100PCS

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Weight::300KGDimensions::1700*1700*2000MMSupply::TIA-5050Standards::IEC 62209-3Robot Brand:CSARBELLName:Volume Control SystemHigh Light:

TIA-5050-2018 Test volume control system

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ISO9001 volume control system

Product Description

TIA-5050-2018 Volume Control Test System

Active Speech Level: The active level of speech or speech-like signals using a speech voltmeter as defined in ITU-T P.56, method B. Measures the active speech level by accounting for pauses that are a natural part of a speech signal.Call Box:The Call Box is the radio simulator used to establish the call with the Device Under Test(DUT). Call Box is synonymous with network system simulator, base station simulator,and radio communications equipment. Conversational Gain: The acoustic gain relative to the reference acoustic level for a face-to-face conversation when listening with one ear. The acoustic level of speech for a conversation at a distance of 1m meter is 64 dBSPL for binaural listening. However, for monaural listening (such as when using a handset) the reference acoustic level is 70dBSPL. (When only one ear is used for listening, a talker is perceived to be about 6 dB quieter than when both ears are used. Therefore, to be perceived at an equivalent loudness, the level at a single (monaural) ear should be about 6 dB louder.)Monoaural Conversational Gain = (Measured dBSPL Level – 70 dBSPL) dBdBm0: Power level in dBm, relative to a reference point called the zero transmission level point (TLP), or 0 TLP. A signal level of X dBm at the 0 TLP is designated X dBm0. In acodec, the 0 TLP is specified in relationship to the full-scale digital level or saturation.However, digital saturation is generally not 0 dBm0. For μ-law codecs 0 dBm0 is 3.17dB below digital full scale. For A-law codecs 0 dBm0 is 3.14 dB below digital full scale.Device Under Test (DUT): The wireless (mobile) handset is referred to as the DUT. DUT issynonymous with User Equipment (UE), Mobile Equipment (ME), and Mobile Station(MS) used in other industry standards. Drum Reference Point (DRP):A point located at the end of the ear canal, corresponding to the eardrum position. Also the point at which the ear simulator used with a head and torso simulator (HATS) measures the sound pressure.Listener Reference Point (LRP):A generic term representing the location at which the acousticoutput from the receiver is to be determined or specified. This may be the Free Field orDiffuse Field.Diffuse Field (DF): Sound field in which the time average of the mean-square soundpressure is the same everywhere and the flow of acoustic energyin all directions is equally probable.Free Field (FF):Sound field in a homogenous, isotropic medium free fromboundaries. In practice, the effects of boundaries on a free fieldare negligible over the region of interest.Receive Electrical Test Point (RETP): The point in the device test arrangement which signals are applied to the DUT in the receive direction.Sound Pressure Level: Sound pressure level is a value expressed as a ratio of the pressure of a sound to a reference pressure. The following sound level units are used in this standard:dBPa:The sound pressure level, in decibels, of a sound is 20 times the logarithm tothe base 10 of the ratio of the pressure of this sound to the reference pressureof 1 Pascal (Pa).NOTE: 1 Pa = 1 N/m2.dBSPL: The sound pressure level, in decibels, of a sound is 20 times the logarithm tothe base 10 of the ratio of the pressure of this sound to the reference pressureof 2 X 10-5 N/m2.Where: 0 dBSPL = 20 micro-Pascals and 0 dBPa= 94 dBSPL.Quiet room: A room with background noise no greater than 40 dBA. 4 TESTING CONSIDERATIONS4.1 ADJUSTABLE FREQUENCY RESPONSEIf the terminal provides the ability to adjust the receive frequency response (e.g., via a “tone control” feature), the terminal is considered to be compliant with this Standard if it meets the requirements at one of the available frequency response settings.4.2 ACOUSTIC TEST INTERFACE EQUIPMENTAn ITU-T P.58 compliant Head and Torso Simulator (HATS) equipped with an ITU-T P.57 type 3.3 earsimulator shall be used for the acoustic transmission measurements specified in this standard. The earsimulator calibration and usage, and the positioning of the handset on the HATS shall be performed according to IEEE Std 269 unless stated otherwise in this document.4.3 HANDSET POSITIONING AND MOUNTING FORCEThe handset shall be placed in either the standard test position as specified in IEEE Std 269 or a recommended test position specified by the manufacturer that complies with the recommended testposition requirements in IEEE Std 269.Requirements in this standard include testing methods with a force of 2 Newtons (2N) and 8N applied when placing the handset receiver against the artificial ear pinna simulator for either the standard test position or recommended test position. The 2N force is used for testing requirements related to use by persons with hearing devices and the 8N force is used for testing requirements related to use by persons without hearing devices.It is expected that for a person using a hearing device, the hearing device provides the desired amplification. Therefore, the tests using a force of 2N against the artificial ear pinna simulator ensure that when the telephone handset is used with a hearing device operating in the acoustic (microphone) mode, the receiver acoustics will provide the expected acoustic signals.4.4 TEST SIGNAL AND ANALYSISThe test signal specified for use in this document is the uncompressed real male speech as published with IEEE Std 269.The test signal Active Speech Level (ASL) for wireless (mobile) device testing shall be -20 dBm0.The analysis shall be done in 1/12 octave bands averaged over one complete sequence of the four short sentences in the test signal unless otherwise specified.The acoustic listener reference point shall be the Free Field (FF) or the Diffuse Field (DF) as determined in the method of measurement.4.5 NARROWBAND AND WIDEBAND TRANSMISSION MODESThe codecs to be used for testing in the Narrowband and Wideband modes are stated below. If the required codec is not available on the DUT, then the codec closest to the required codec may be used and the codec used shall be reported with the test results.4.5.1 Narrowband mode testingFor testing of a terminal supporting narrowband telephony, the system simulator shall use the AMR speech codec as defined in the 3GPP TS 26 series of specifications, at the source coding bit-rate of 12.2 kbit/s.4.5.2 Wideband mode testingFor testing of a terminal supporting wideband telephony, the system simulator shall use the AMR-WB speech codec as defined in the 3GPP TS 26 series of specifications, at the source coding bit rate of 12.65 kbit/s.4.6 AIR INTERFACEWireless handsets typically provide multiple air interface modes such as GSM, CDMA, WCDMA, LTE,etc. When connecting a call between the audio test system and the DUT through the Call Box, any available air interface that supports the codecs described above may be used for testing.4.7 PRECAUTIONSCoding, decoding, packetization and other signal processing may introduce significant delays that must be accounted for by the measurement system. Refer to IEEE Std 269 for additional precautions regarding test signal usage.4.8 TEST ARRANGEMENTThe general test arrangement is shown in Figure 1. The Call Box passes the voice channel stream to theDUT without modification. There is no gain or loss in the voice channel stream due to the Call Boxinterface.NOTES:1. Additional information related to the air interface for the various RF technologies is specified inseveral 3GPP documents. A list of these can be found in 3GPP TS 26.132 V14.0.0 clause 42. Additional information related to the test setup can be found in 3GPP TS 26.132, V14.0.0 clause5.1.3. The RETP (receive electrical test point) is the point in the device test arrangement where signalsare applied to the DUT in the receive direction.ANSI/TIA-505075 TECHNICAL REQUIREMENTSThe following requirements shall be met for at least one volume control setting for the narrowbandtransmission mode (if supported) and the wideband transmission mode (if supported).5.1 RECEIVE VOLUME CONTROL PERFORMANCE5.1.1 Requirement1. With a mounting force of 8N, the DUT shall have at least one volume control setting that will produce a conversational gain of ≥ 18 dB with the output distortion and the frequency response meeting the requirements in clause 5.2.1 & 5.3.1 respectively.2. With a mounting force of 2N, the DUT shall have at least one volume control setting that will produce a conversational gain of ≥ 6 dB with the output distortion and the frequency response meeting the requirements in clause 5.2.1 & 5.3.1 respectively.NOTE:Other acoustic receive features may be available such as additional amplification, tonecontrol, automatic gain control, etc. ANSI/TIA-4953-B contains performance requirementsfor output levels and tone control operation for amplified devices.5.1.2 Method of Measurement1. Configure the DUT with a mounting force of 8N and test equipment as shown in Figure 1 in an active call state with the applicable codec for the transmission mode under test.2. Set the DUT volume control to the maximum setting.3. If the DUT has an adjustable tone control feature, a tone control setting that meets the frequency response requirements in section 5.3.1 shall be used.4. Apply the real speech test signal at a level of -20 dBm0 at the RETP and measure the acoustic output at the Drum Reference Point (DRP) over one complete sequence of the test signal.5. Translate the measurement made at the DRP to the Free Field (FF) using the translation data inAnnex B.6. Over the applicable frequency band, determine the ASL in dBSPL for the resulting sound pressurelevel in accordance with Method B of ITU-T Recommendation P.56:a. Narrowband 100 Hz through 4000 Hz.b. Wideband 100 Hz through 7720 Hz.7. Calculate the Conversational Gain by subtracting 70 dB from the measured dBSPL.[Conversational Gain = (Measured dBSPL Level – 70 dBSPL) dB]8. Measure the output distortion per clause 5.2. If a distortion failure occurs at the maximum volume control setting, reduce the volume control setting and repeat the measurement to determine if a setting can be found for which the conversational gain requirement is met without a distortion failure.9. Repeat steps 2-8 with a mounting force of 2N.

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