Aeroflex ProLock 2201 User Manual
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Aeroflex ProLock 2201 User Manual

Aeroflex ProLock 2201 User Manual

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2201 ProLock
User's Guide
Firmware version 2.00
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  • Page 1 2201 ProLock User’s Guide Firmware version 2.00 www.valuetronics.com...
  • Page 2 www.valuetronics.com...
  • Page 3 Every effort was made to ensure that the information in this document was accurate at the time of printing. However, information is subject to change without notice, and Aeroflex reserves the right to provide an addendum to this document with information not available at the time this document was created.
  • Page 4 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 5: Table Of Contents

    Table of Contents About This Guide Purpose and scope ..........xii Assumptions .
  • Page 6 Table of Contents Numerical results with statistics .......12 Bits ........... . .12 Curr.
  • Page 7 Table of Contents Working with the built-in coupling factor database ... . . 33 Updating the built-in coupling factor database ....34 Testing multiband phones .
  • Page 8 Table of Contents Performing EDGE (EGPRS) measurements ......62 Introduction ..........62 Setting up the measurements .
  • Page 9 Table of Contents Multi RAT ..........84 Measurement .
  • Page 10 Table of Contents Loading Autotest files ......... 104 Running an Autotest .
  • Page 11 Table of Contents Appendix C End-User License Agreement Publication History 2201 ProLock Firmware version 2.00 www.valuetronics.com...
  • Page 12 Table of Contents 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 13: About This Guide

    About This Guide – “Purpose and scope” on page xii – “Assumptions” on page xii – “Related information” on page xii – “Technical assistance” on page xii – “Conventions” on page xiii 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 14: Purpose And Scope

    These manuals can be downloaded from the Internet; printed copies can be ordered from Aeroflex. Technical assistance If you need assistance or have questions related to the use of this product, call Aeroflex’s support. You can also contact Aeroflex by e-mail at support-muc@aeroflex.com. 2201 ProLock Firmware version 2.00...

  • Page 15: Conventions

    About This Guide Conventions Conventions This guide uses naming conventions and symbols, as described in the following tables. Table 1 Typographical conventions Description Example User interface actions appear in On the Status bar, click Start this typeface Buttons or switches that you Press the O switch.
  • Page 16 About This Guide Conventions Table 3 Symbol conventions This symbol represents a general hazard. This symbol represents a risk of electrical shock. NOTE This symbol represents a note indicating related information or tip. Table 4 Safety definitions WARNING Indicates a potentially hazardous situation which, if not avoided, could result in death or serious injury.

  • Page 17: Safety Notes

    Safety Notes This chapter provides the safety notes for the 2201 ProLock. Topics discussed in this chapter include the following: – “Safety class” on page xvi – “Safety warnings” on page xvi 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 18: Safety Class

    Safety Notes Safety class Safety class For the safety class of your 2201 ProLock, please refer to the Getting Started Manual that was delivered with your 2201 both as a hardcopy and as a PDF file on a CD. Safety warnings This product is designed for indoor use.

  • Page 19: Overview

    Overview Chapter 1 This chapter provides a general description of the 2201 ProLock. Topics discussed in this chapter include the following: – “About the 2201 ProLock” on page 2 – “What’s new” on page 2 – “Features and capabilities” on page 3 –...

  • Page 20: About The 2201 Prolock

    About the 2201 ProLock About the 2201 ProLock Aeroflex’s 2201 ProLock is a reasonably priced test instrument for 3G mobile phones and wireless data cards. Level 1 and level 2 service shops use ProLock to quickly test wireless devices, perform smaller repairs and bill manufacturers for warranty claims.

  • Page 21: Features And Capabilities

    Chapter 1 Overview Features and capabilities – Now supports 1489 Bluetooth Connectivity Test Option – Adjustable speech loopback delay for GSM – Loopback authentication can be switched off/on for WCDMA Improvements: – Problems with BER measurement on GSM solved – Position of XY Shuttle is displayed in manual mode –...
  • Page 22 Chapter 1 Overview Options and accessories 2232 GPRS Option The 2232 GPRS Option is an extension of the 2231 GSM Option, adding the necessary protocol for the GPRS Attach and to set up a test channel. The measurements are the same as with the GSM Option, with BLER measurements in addition.
  • Page 23 4921 RF Shield Aeroflex’s 4921 RF Shield is a new RF shielding solution for testing 3G mobile phones, as well as data cards and WLAN equipment in large service centres and production lines. The 4921 is the optimum solu- 2201 ProLock Firmware version 2.00...
  • Page 24 These coupling factors are valid for the antenna connection between the phone and the Aeroflex 4916 Antenna Coupler installed in a 4921 RF Shield. The 7360 Coupling Factor Update License is available as an option to 7312 Lector Enhanced and 7315 Scriptor.

  • Page 25: Instrument Setup And General Operation

    Instrument Setup and General Chapter 2 Operation This chapter describes how the instrument and measurement parame- ters are set up. Topics discussed in this chapter are as follows: – “Starting the instrument” on page 8 – “Basic concepts of operation” on page 8 –...

  • Page 26: Starting The Instrument

    SCPI Reference Guide for the 2201 ProLock. For operation through Lector and Scriptor, Aeroflex’s family of test automation products, please also refer to the user’s guide for this software.

  • Page 27: Menus And Softkeys

    Chapter 2 Instrument Setup and General Operation Basic concepts of operation Menus and softkeys The most important elements are the menus displayed on the LCD screen, and the six softkeys below the screen. The screen always displays a menu with either input fields or results or both, and a description of the current functions of each of the six softkeys.

  • Page 28: Symbols Used On The Display

    Chapter 2 Instrument Setup and General Operation Basic concepts of operation In menu mode, you can move between the entry fields with the cursor keys: Press the R key to jump to the next entry field, or the L IGHT key to jump to the previous entry field.
  • Page 29 Chapter 2 Instrument Setup and General Operation Basic concepts of operation On the right-hand side, ProLock displays the name of the menu. Example: 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 30: Understanding The Presentation Of Measurement Results

    Chapter 2 Instrument Setup and General Operation Understanding the presentation of measurement results Understanding the presentation of measurement results Numerical results Most measurement results are displayed as a numerical value along with a unit. Examples: “25.02 dBm” are 25.02 decibel relative to 1 mW (or 318 mW in total). A peak phase error of “5.46 °”...

  • Page 31: Curr

    Chapter 2 Instrument Setup and General Operation Understanding the presentation of measurement results Curr. This column displays the current (i.e. most recent) measurement result. Min. This column shows the minimum (i.e. lowest) result for the respective bit class since the test was started. The statistical evaluation can be restarted by pushing the softkey.

  • Page 32: Chapter 2 Instrument Setup And General Operation Connecting The Device Under Test

    If you use an RF shielding device such as Aeroflex’s 4921 RF Shield, the problem of signal distortion can be avoided. With the knowl-...

  • Page 33: Using A Cable Connection

    Chapter 2 Instrument Setup and General Operation Connecting the device under test Using a cable 1 Use a double-shielded RF cable with an N-type connector at one end and the appropriate connector for the mobile phone under connection test at the other end. 2 Plug the N-type connector into the N-type jack RF I at the rear of the 2201 ProLock.

  • Page 34: Before Starting A Test

    ProLock’s front panel, and how to interpret test results. – Lector-driven: Aeroflex offers a family of software products for test automation. 7311 Lector Basic and 7312 Lector Enhanced can be used to drive tests with the 2201 ProLock, while 7315 Scriptor can also be used to create and maintain test scripts.

  • Page 35: Using The 2201 Prolock With Peripherals

    If you do not have a LAN but a PC with a LAN socket, you can connect the instrument to the PC directly using a cross-connect LAN cable. This cable type is available in computer shops or from Aeroflex. In order to set up the IP address parameters of the 2201 ProLock, you can either enter them directly or activate DHCP (Dynamic Host Config- uration Protocol).
  • Page 36 Chapter 2 Instrument Setup and General Operation Using the 2201 ProLock with peripherals of TCP/IP devices on a local area network; the IP address and subnet mask are assigned by a DHCP server that must be available on the LAN. To enable DHCP, proceed as follows: 1 From the start menu, select Config.

  • Page 37: Using The Rs-232 Or The Usb-B Interface

    Chapter 2 Instrument Setup and General Operation Using the 2201 ProLock with peripherals 6 The Port input field allows you to select a port number for remote control. The default is port number 49200; change this only if needed and ensure that the remote control software uses the same port number to address the 2201 ProLock! 7 The Terminator selection field allows you choose a command or request line terminating identifier.

  • Page 38: Using An External Time Base

    Chapter 2 Instrument Setup and General Operation Using the 2201 ProLock with peripherals 4 Similarly, the USB Terminator selection field defines the terminating character or character combination for remote control over the USB. 5 For a USB connection, install the USB driver for ProLock from the Lector CD on the PC.
  • Page 39 Chapter 2 Instrument Setup and General Operation Using the 2201 ProLock with peripherals 2 Push the softkey to confirm the message. 3 Repeat steps 1 and 2 whenever you want to record the current screen contents. 4 In order to display the screenshots on a PC, include them in your documentation or file them away: a Insert a USB flash drive into either the USB slot on the front panel or one of the USB master slots (USB1 or USB2) on the...

  • Page 40: Managing Files On The 2201 Prolock

    Chapter 2 Instrument Setup and General Operation Managing files on the 2201 ProLock Managing files on the 2201 ProLock You can transfer various types of data between the ProLock’s internal hard disk and a USB flash drive. Stored files can be deleted, or copied or moved between the ProLock and a USB flash drive using the ProLock’s File Manager.
  • Page 41 Chapter 2 Instrument Setup and General Operation Managing files on the 2201 ProLock 5 In order to copy, move or delete a file or a complete folder on either the ProLock or the USB flash drive, move the cursor to the respective item and push the softkey (you can mark Mark/Unmark...

  • Page 42: Setting Up General Parameters Of The 2201 Prolock

    Chapter 2 Instrument Setup and General Operation Setting up general parameters of the 2201 ProLock Setting up general parameters of the 2201 ProLock Setting up the language The default language of the user interface is English, i.e. all text is displayed in this language.
  • Page 43 Performing Manual Tests and Chapter 3 Measurements in GSM Mode This chapter provides task-based instructions for using the 2201 ProLock features in manual operation. Topics discussed in this chapter are as follows: – “Introduction” on page 26 – “Setting up network and test parameters” on page 26 –...

  • Page 44: Introduction

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Introduction Introduction The 2201 ProLock with the 2231 GSM Option allows tests and measurements at GSM mobile phones, or in the GSM mode of multi- standard phones. Setting up network and test parameters This section makes you familiar with the ProLock parameters necessary to successfully perform standard measurements.

  • Page 45: Tch Channel

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Setting up network and test parameters Note The ProLock uses the channel number to determine the frequency band. However, GSM 1800 and GSM 1900 partly use the same channel numbers. The ProLock indicates next to the channel num- ber entered which band it refers to.

  • Page 46: Rf Output Power

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Setting up network and test parameters Note The type of voice channel cannot be changed during a call. RF Output Power This is the radiated signal power of the 2201 ProLock plus the currently selected coupling factor.

  • Page 47: Setting Up Advanced Network Parameters

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Setting up advanced network parameters Setting up advanced network parameters The ProLock allows you to define a few network parameters that you do not normally want to change. From the start menu, push GSM >...

  • Page 48: Drx

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Setting up advanced network parameters The MNC is a two-digit code, except for US networks which use three- digit coding. If you want to test mobile phones using a standard test SIM in accor- dance to GSM testing standards, set the MNC to 1 (this is the default setting).

  • Page 49: Lac

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Setting up advanced network parameters The Location Area Code (LAC) is the number of the base station within the network. Several base stations together may form a cell. Entry range: 0...65535. Default value: 1 Cell Ident/Access The first input field defines the number of the cell within the network (the cell identity).

  • Page 50: Ra Code

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Setting up advanced network parameters Entry range: 1 to 7. Default value: 5 RA Code In GPRS mode, the full Routing Area (RA) code is broadcast by the base station. Entry range: 0 to 255.

  • Page 51: Setting Up The Coupling In The Prolock

    The attenuation depends on both the type of mobile under test and the environment. When the coupler is mounted in Aeroflex’s 4921 RF Shield, for example, this will give measurement different from an open environment.

  • Page 52: Updating The Built-In Coupling Factor Database

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Setting up the coupling in the ProLock Updating the built-in The database can be updated over the Internet or from a file server with 7312 Lector Enhanced (or 7315 Scriptor) and the 7360 Coupling coupling factor database Factor Update License.

  • Page 53: Testing Multiband Phones

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Testing multiband phones Testing multiband phones Typical mobile phone today support three or four GSM frequency bands: GSM 900, GSM 1800, GSM 850 and GSM 1900. GSM 900 and GSM 850 can be selected by simply entering a channel number that falls into these bands because their channel numbers are associated with the band.

  • Page 54: Testing The Incoming (Mobile-Terminated) Call

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Testing the incoming (mobile-terminated) call Testing the incoming (mobile-terminated) call This test checks if the mobile is capable of receiving a call and alerting the user. It is also a typical way to start measurements. 1 Insert a Test SIM in the mobile phone and connect the phone to the ProLock as depicted in section “Connecting the device under test”...

  • Page 55: Chapter 3 Performing Manual Tests And Measurements In Gsm Mode Testing The Incoming (Mobile-Terminated) Call

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Testing the incoming (mobile-terminated) call 8 Accept the call at the phone. The phone stops ringing and a voice channel is set up. The signaling status changes and measurements are performed. 9 You can now perform transmitter and receiver measurements if you like.

  • Page 56: Testing The Outgoing (Mobile-Originated) Call

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Testing the outgoing (mobile-originated) call Testing the outgoing (mobile-originated) call This test checks if the mobile is capable of correctly accepting dialed digits (i.e. the keypad is tested) and if it can initiate a call. It is also a typical way to start measurements.

  • Page 57: Chapter 3 Performing Manual Tests And Measurements In Gsm Mode Testing The Outgoing (Mobile-Originated) Call

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Testing the outgoing (mobile-originated) call 8 Compare the number dialed on the phone with the number shown in the Results section on the right-hand side of the GSM Tests menu, in the Dialed No. field. It should be the same. 9 You can now perform transmitter and receiver measurements if you like.

  • Page 58: Chapter 3 Performing Manual Tests And Measurements In Gsm Mode Reading The Capabilities Of The Mobile Phone

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Reading the capabilities of the mobile phone Reading the capabilities of the mobile phone Mobile phone The ProLock can show the following information about the phone under test: parameters Phone type The phone model is indicated at the top-left of the GSM measurement menus, provided that the Type Approval Code (TAC) is found in its internal database of phone models.

  • Page 59: Gsm Revision Level

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Reading the capabilities of the mobile phone Table 3 GSM power classes and maximum power levels GSM 1800, Power class GSM 850, GSM 900 GSM 1900 43 dBm (20 W) 30 dBm (1 W) 39 dBm (8 W) 24 dBm (250 mW)

  • Page 60: Procedure

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Reading the capabilities of the mobile phone Procedure 1 Set up a call as shown on page 36 or on page 2 Read the phone type, the IMSI and the IMEI from the GSM Tests menu.

  • Page 61: Testing The Sms Capabilities

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Testing the SMS capabilities Testing the SMS capabilities The SMS field in the MS Info section of the GSM MS Info menu shows if the Short Message Service (SMS) capability is implemented. You can test the actual capability in both directions, i.e.
  • Page 62 Chapter 3 Performing Manual Tests and Measurements in GSM Mode Testing the SMS capabilities 6 Push the softkey. The GSM SMS Test menu appears. 7 In order to send a message from the phone to the ProLock: a Create a new short message on the mobile phone, and enter text.

  • Page 63: Testing The Sms Capabilities During A Call

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Testing the SMS capabilities a Select a message class. Valid message classes are in the range 0 to 3 as follows: 0: Show message on display. 1: Store message in working memory. 2: Store message on SIM.
  • Page 64 Chapter 3 Performing Manual Tests and Measurements in GSM Mode Testing the SMS capabilities c Check if the number and the text entered appear on the right- hand side of the menu, and that the status field indicates “SMS received”. 4 In order to send a message from the ProLock to the phone: a Select a message class.
  • Page 65 Chapter 3 Performing Manual Tests and Measurements in GSM Mode Testing the SMS capabilities e Check if the message text, along with the sender number, has been received by the mobile phone: Depending on the choice of message class, the contents is either displayed directly or can be fetched from memory.

  • Page 66: Performing Standard Transmitter Tests

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing standard transmitter tests Performing standard transmitter tests This section shows how to read and interpret the transmitter measure- ment results after a call has been set up. In order to set up a call, follow the instructions on either page 36 page The GSM Tests menu and the GSM Power menu present the following...

  • Page 67: Phase Rms

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing standard transmitter tests Phase RMS The RMS phase error is calculated from the phase errors of all bits within a burst, by root-mean-square-averaging them. This value is always positive. According to the specifications, the RMS phase error within a GSM burst must not exceed 5°.

  • Page 68: Chapter 3 Performing Manual Tests And Measurements In Gsm Mode Performing Receiver Measurements In The Mobile Phone

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing receiver measurements in the mobile phone Performing receiver measurements in the mobile phone The receiver of the mobile phone includes different components to measure the received signal strength and to demodulate the signal. It also decodes the received bit stream and, based on the relative number of bit errors found in the decoding process, provides an esti- mate of the signal quality.

  • Page 69: Performing Prolock-Based Receiver Measurements

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing ProLock-based receiver measurements Performing ProLock-based receiver measurements The ProLock supports three different types of statistical measurements of the receiver performance: bit error rate, residual bit error rate and fast bit error rate measurements. All of them allow you to judge the quality of the mobile’s receiver, but in different ways.

  • Page 70: Setting Up The Test Parameters

    A counter indicates how many results have already been produced since the start of the measurement, and indicates the activity of the measurement. Setting up the test Aeroflex proposes to leave the test parameters at their default values if you are unsure about their meaning. parameters Measurement Mode The Mode selection field allows you to choose between the different measurement methods.

  • Page 71: Interpreting Ber Measurement Results

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing ProLock-based receiver measurements Interpreting BER The bit error rate (BER) is tested for all the different classes of speech and data bits; these are class Ia, class Ib and class II bits. Class Ia bits measurement results are best protected against corruption on the air interface whereas class II bits are completely unprotected.

  • Page 72: Interpreting Rber Measurement Results

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing ProLock-based receiver measurements Interpreting RBER The residual bit error ratio (RBER) is similar to the BER, except that all frames that the mobile detects an error in, are rejected and not used measurement results for the RBER.

  • Page 73: Interpreting Fber Measurement Results

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing ProLock-based receiver measurements Interpreting FBER In the Fast BER measurement, the bit stream is not encoded and decoded at all, so all the bits are unprotected as the class II bits in the measurement results BER measurement.

  • Page 74: Performing Gprs Measurements

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing GPRS measurements Performing GPRS measurements Introduction GPRS is an extension of the GSM protocol, enabling packet-oriented data transmission between the network (and, for example, the Internet) and the mobile phone. In addition to a different protocol, it can also combine several time slots for one user to increase the data rate.

  • Page 75: Chapter 3 Performing Manual Tests And Measurements In Gsm Mode Performing Gprs Measurements

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing GPRS measurements 7 Switch on the mobile phone, and wait until it indicates that it has found a base station. Note Ensure that you keep this sequence of steps, there may be restric- tions in the test capabilities otherwise.

  • Page 76: Interpreting The Results

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing GPRS measurements 13 Push the softkey. Start Test The measurements are started, and the menu is frequently updated with results. Section “Interpreting the results” on page 58 explains how the results should be read.

  • Page 77: Measuring The Bcs-Based Bler

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing GPRS measurements Measuring the BCS- In the BLER-BCS (BLock Error Rate based on the Block Check Sequence) measurement, the mobile receives a lot of data blocks but based BLER transmits only occasionally (when polled).
  • Page 78 Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing GPRS measurements 6 Switch on the mobile phone, and wait until it indicates that it has found a base station. Note Ensure that you keep this sequence of steps, there may be restric- tions in the test capabilities otherwise.

  • Page 79: Interpreting The Results

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing GPRS measurements 13 When you are finished, push the Stop Test softkey. The measurements stop, and the status indication returns to GPRS Attached. 14 Push the GPRS Detach softkey to finish the GPRS mode. Interpreting the results GPRS Tests menu produces a statistical evaluation of the results of the BLER-BCS for each time slot and in addition over all the time slots...

  • Page 80: Chapter 3 Performing Manual Tests And Measurements In Gsm Mode Performing Edge (Egprs) Measurements

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing EDGE (EGPRS) measurements Performing EDGE (EGPRS) measurements Introduction EDGE is an extension of the GSM and GPRS protocols, enabling packet- oriented data transmission between the network (and, for example, the Internet) and the mobile phone, at advanced data rates.
  • Page 81 Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing EDGE (EGPRS) measurements 7 Switch on the mobile phone, and wait until it indicates that it has found a base station. Note Ensure that you keep this sequence of steps, there may be restric- tions in the test capabilities otherwise.

  • Page 82: Performing Edge Transmitter Measurements

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing EDGE (EGPRS) measurements Performing EDGE 1 Once the mobile device is EDGE-attached (see previous section), push the softkey. Start Test transmitter A test channel is set up in uplink and the mobile device transmits measurements random data.

  • Page 83: Tx Power

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing EDGE (EGPRS) measurements TX Power This result field shows the measured transmit power of the mobile phone under test. Ideally it equates the MS Power value entered. The tolerance values depend on the power level, see “Power control levels and tolerances”...

  • Page 84: Performing Receiver Measurements In Edge Mode

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing EDGE (EGPRS) measurements Performing receiver The 2201 ProLock supports two types of (E)GPRS receiver measure- ments: BLER-USF and BLER-BCS. The ProLock transmits the downlink measurements in EDGE information using GMSK modulation. mode Measuring the USF-based The BLER-USF (BLock Error Rate based on the Uplink State Flag)

  • Page 85: Measuring The Bcs-Based Bler

    Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing EDGE (EGPRS) measurements 6 Push the softkey. Start Test The measurements are started, and the menu is frequently updated with results. Section “Interpreting the results” on page 67 explains how the results should be read.
  • Page 86 Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing EDGE (EGPRS) measurements proper reception or reports which blocks have been received in error. The phone can detect reception errors – after channel decoding – by comparing the transmitted Block Check Sequence (a checksum included with each block) with the calculated one.
  • Page 87 Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing EDGE (EGPRS) measurements 6 Push the softkey. Start Test The measurements are started, and the menu is frequently updated with results. Section “Interpreting the results” on page 69 explains how the results should be read.
  • Page 88 Chapter 3 Performing Manual Tests and Measurements in GSM Mode Performing EDGE (EGPRS) measurements 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 89: Chapter 4 Performing Tests And Measurements In Wcdma

    Performing Tests and Chapter 4 Measurements in WCDMA This chapter provides task-based instructions for using the 2201 ProLock to test the WCDMA and HSDPA performance of mobile phones and wireless data cards. Topics discussed in this chapter are as follows: –...

  • Page 90: Performing Tests And Measurements In Wcdma Introduction

    Chapter 4 Performing Tests and Measurements in WCDMA Introduction Introduction The 2201 ProLock with the 2234 WCDMA Option allows tests and measurements at WCDMA-enabled mobile phones and data cards. In addition, the 2236 HSDPA Option is required for the HSDPA tests explained in section “Testing the HSDPA functions”...

  • Page 91: Uarfcn Dl

    Chapter 4 Performing Tests and Measurements in WCDMA Setting up network and test parameters UARFCN DL In this field, enter the channel number of the WCDMA carrier number to be used in the downlink (transmission from base station to mobile phone).

  • Page 92: Setting Up Advanced Network Parameters

    Chapter 4 Performing Tests and Measurements in WCDMA Setting up advanced network parameters Setting up advanced network parameters ProLock allows you to define a few network parameters that you do not normally want to change. From the start menu, push WCDMA >...

  • Page 93: P-Ccpch_Ec

    Chapter 4 Performing Tests and Measurements in WCDMA Setting up advanced network parameters P-CCPCH_Ec The Primary Common Control Channel (P-CCPCH) transports synchro- nization and broadcast information for users. Within a cell there is only one P-CCPCH. Its frame structure differs from the downlink DPCH (Dedicated Physical Channel) in that no TPC (Transmit Power Control) commands, no TFCI (Transport Format Combination Indicator) and no pilot bits are transmitted.

  • Page 94: Mnc

    Chapter 4 Performing Tests and Measurements in WCDMA Setting up advanced network parameters In conjunction with the MCC, the Mobile Network Code (MNC) indi- cates the national network. The MNC is coded by national authorities, usually starting from 01. The MNC is a two-digit code, except for US networks which use three- digit coding.

  • Page 95: Setting Up The Coupling In Prolock

    The attenuation depends on both the type of mobile under test and the environment. When the coupler is mounted in Aeroflex’s 4921 RF Shield, for example, this will give measurement different from an open environment.

  • Page 96: Updating The Built-In Coupling Factor Database

    Chapter 4 Performing Tests and Measurements in WCDMA Testing the incoming (mobile-terminated) call Updating the built-in The database can be updated over the Internet or from a file server with 7312 Lector Enhanced (or 7315 Scriptor) and the 7360 Coupling coupling factor database Factor Update License.
  • Page 97 Chapter 4 Performing Tests and Measurements in WCDMA Testing the incoming (mobile-terminated) call 6 Switch on the mobile phone, and wait until it is registered on the simulated network (attached). 7 Push the softkey. NB Call Speech The phone is paged and starts ringing. 8 Accept the call at the phone.

  • Page 98: Testing The Outgoing (Mobile-Originated) Call

    Chapter 4 Performing Tests and Measurements in WCDMA Testing the outgoing (mobile-originated) call Testing the outgoing (mobile-originated) call This test checks if the mobile is capable of correctly accepting dialed digits (i.e. the keypad is tested) and if it can initiate a call. It is also a typical way to start measurements.
  • Page 99 Chapter 4 Performing Tests and Measurements in WCDMA Testing the outgoing (mobile-originated) call 7 Enter a number on the phone that comprises all the numerical digits (e.g. “0123456789*#”), and push the Call button on the phone. The phone sets up a call with ProLock. The signaling status changes and measurements are performed.
  • Page 100 Chapter 4 Performing Tests and Measurements in WCDMA Testing the outgoing (mobile-originated) call 11 Release the call either on the phone (on-hook key) or on ProLock (using the softkey). Release 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 101: Reading The Capabilities Of The Mobile Phone

    Chapter 4 Performing Tests and Measurements in WCDMA Reading the capabilities of the mobile phone Reading the capabilities of the mobile phone Mobile phone ProLock can show the following information about the phone under test: parameters Phone type The phone model is indicated at the top-left of the WCDMA measure- ment menus, provided that the Type Approval Code (TAC) is found in its internal database of phone models.

  • Page 102: Multi Rat

    Chapter 4 Performing Tests and Measurements in WCDMA Reading the capabilities of the mobile phone Table 6 WCDMA power classes and maximum power levels Power class Band I Band II to Band X 27 dBm (0.5 W) 24 dBm (250 mW) 24 dBm (250 mW) 21 dBm (125 mW) 21 dBm (125 mW)
  • Page 103 Chapter 4 Performing Tests and Measurements in WCDMA Reading the capabilities of the mobile phone 3 Push … > UE Info The WCDMA UE Info menu appears. 4 Read the MS power class, the Multi-RAT capability, the measure- ment, positioning and ciphering capabilities from the right-hand side of the WCDMA UE Info menu.

  • Page 104: Performing Standard Transmitter Tests

    Chapter 4 Performing Tests and Measurements in WCDMA Performing standard transmitter tests Performing standard transmitter tests This section shows how to read and interpret the transmitter measure- ment results after a call has been set up. Setting up a connection In order to set up a call, follow the instructions on either page 78 page...

  • Page 105: Affecting The Measurements

    Chapter 4 Performing Tests and Measurements in WCDMA Performing standard transmitter tests Affecting the You can change some important test parameters while a call is active. measurements – In order to test on a different frequency, change the frequency band and the channel number in the Network section of the test menu.

  • Page 106: Prach Ue Power

    Chapter 4 Performing Tests and Measurements in WCDMA Performing standard transmitter tests PRACH UE power During a mobile-originated call setup, the PRACH UE Pwr. field shows the power level of the device on the PRACH (Physical Random Access Channel), in dBm. Channel power The Chan.

  • Page 107: Peak Phase Error

    Chapter 4 Performing Tests and Measurements in WCDMA Performing standard transmitter tests Peak phase error The peak phase error indicates the phase difference, i.e. the angle difference, between the signal vector measured and the ideal signal vector. The result is indicated in the Ph. Err. Peak field. Limit value range according to WCDMA specifications: ±45°...

  • Page 108: Measuring Inner Loop Power

    Chapter 4 Performing Tests and Measurements in WCDMA Performing standard transmitter tests The measurement is performed in a 5 MHz bandwidth on the first and second channel below and above the active channel. The graphical statistics display shows the measurement results relative to limit values which can be defined in the WCDMA Power Limits menu;...

  • Page 109: Performing Receiver Measurements

    Chapter 4 Performing Tests and Measurements in WCDMA Performing receiver measurements Performing receiver measurements The receiver of the mobile phone includes different components to measure the received signal strength and to demodulate the signal. It also decodes the received bit stream and, based on the relative number of bit errors found in the decoding process, provides an esti- mate of the signal quality.
  • Page 110 Chapter 4 Performing Tests and Measurements in WCDMA Performing receiver measurements 7 Push the softkey. NB Call Loopback The phone is paged and automatically answers the call. The loop- back mode is activated. 8 You can now go through the receiver measurements. Some of the measurement results are displayed in the WCDMA BER/BLER menu;...

  • Page 111: Affecting The Measurements

    Chapter 4 Performing Tests and Measurements in WCDMA Performing receiver measurements Affecting the You can change some important test parameters while a call is active. measurements – In order to test on a different frequency, change the frequency band and the channel number in the Network section of the test menu.

  • Page 112: Cpich Received Signal Code Power

    Chapter 4 Performing Tests and Measurements in WCDMA Performing receiver measurements CPICH received signal code The CPICH RSCP field indicates the Common Pilot Channel Received power Signal Code Power, which is the average power of the received signal after despreading and combining the signal. It is important how the wireless device received the CPICH transmitted by Node B.

  • Page 113: Performing A Handover To Gsm

    Chapter 4 Performing Tests and Measurements in WCDMA Performing a handover to GSM Performing a handover to GSM Overview In normal operation, you can use the 2201 ProLock to test the WCDMA characteristics and those of GSM separately. Along with the additional 2235 WCDMA Speed and Handover to GSM Option, you can both test the handover capability and speed up the testing.
  • Page 114 Chapter 4 Performing Tests and Measurements in WCDMA Performing a handover to GSM 3 Prepare the GSM network parameters as described in “Setting up network and test parameters” on page 26 and in “Setting up advanced network parameters” on page 4 Push the softkey.

  • Page 115: Testing The Hsdpa Functions

    Chapter 4 Performing Tests and Measurements in WCDMA Testing the HSDPA functions Testing the HSDPA functions The tests in HSDPA mode are similar to those in WCDMA (Node B-initi- ated speech call , Node B-initiated loopback call), but there is a third call mode (HSDPA loopback) which is performed in data packet- switched mode, without a circuit-switched call being set up.

  • Page 116: Setting Up Hsdpa Parameters

    Chapter 4 Performing Tests and Measurements in WCDMA Testing the HSDPA functions Depending on the type of mobile and its configuration, it may request the PS Attach automatically after being switched on, or when data need to be transferred (e.g. because the user started the web browser on the phone).

  • Page 117: Performing Hsdpa-Specific Measurements

    Chapter 4 Performing Tests and Measurements in WCDMA Testing the HSDPA functions HSDPA Settings: H-Set Allows you to select from predefined sets of handset parameters for the test. – H-Set 1 thru H-Set 6 are fixed test configurations specified by the 3GPP.

  • Page 118: Understanding Hsdpa Throughput Measurement Parameters

    Chapter 4 Performing Tests and Measurements in WCDMA Testing the HSDPA functions 4 In the Results section, select the number of subframes for each measurement. The higher the number, the more exact are the results, but the longer takes each measurement. 5 Read the results.

  • Page 119: Dl Bler

    Chapter 4 Performing Tests and Measurements in WCDMA Testing the HSDPA functions DL BLER The DL BLER field displays the downlink block error rate as calculated from the positive and negative acknowledgements that the mobile returns to the tester. 2201 ProLock Firmware version 2.00 www.valuetronics.com...
  • Page 120 Chapter 4 Performing Tests and Measurements in WCDMA Testing the HSDPA functions 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 121: Autotest

    Autotest Chapter 5 This chapter describes how to use the optional Autotest features that allow you to run complete test scripts from within the instrument. Topics discussed in this chapter are as follows: – “Introduction” on page 104 – “Loading Autotest files” on page 104 –...

  • Page 122: Loading Autotest Files

    Chapter 5 Autotest Introduction Introduction This chapter describes how to configure and use the Autotest of the 2201 ProLock. It requires the 2261 Autotest Option to be installed in the ProLock. The Autotest Option uses existing test scripts, e.g. those that come with 7310 Lector and Scriptor, or test scripts that were provided by a mobile phone vendor, or scripts that were self-developed using 7315 Scriptor.
  • Page 123 Chapter 5 Autotest Loading Autotest files 7 In the Synchronization Path field, set the drive letter and root direc- tory of the USB flash drive, and confirm your choice by clicking 8 Click Extras > Synchronize > Single Sync… The Single Synchronization of Files menu appears. 9 Click the button.
  • Page 124 Chapter 5 Autotest Loading Autotest files Warning message “Autotest files are not installed!” This message appears if you have not installed Autotest files before. Click to confirm the message. 15 Push the button. Transfer Test Data The Transfer Test Data menu appears. 16 Push the button.

  • Page 125: Running An Autotest

    Each Group can have one or more Subgroups, which in turn consist of individual test scripts. While the number of tests can easily be extended using Aeroflex’s 7315 Scriptor, there are already several default groups and test scripts available with the 2201 ProLock. These tests are (subject to change...
  • Page 126 Chapter 5 Autotest Running an Autotest Table 7 Default test scripts delivered with the 2201 ProLock Group Subgroup Test Script WC125_LT.RBT 06.WCDMA;GSM WG_D9018_ST.RBT WG_D9018_LT.RBT WG_T901819_ST.RBT WG_T901819_ST.RBT W25G_D8519_ST.RBT W25G_D8519_LT.RBT W125G_Q_ST.RBT W125G_Q_LT.RBT 07.WCDMA;GSM;EDGE WGE_D9018_ST.RBT WGE_D9018_LT.RBT W25GE_D8519_ST.RBT W25GE_D8519_LT.RBT W125GE_Q_ST.RBT W125GE_Q_LT.RBT 08.GSM;EDGE GE_D9018.RBT GE_D8519.RBT GE_T901819.RBT 09.GPRS GP_S90.RBT...

  • Page 127: Carrying Out A Test

    TAC (Type Approval Code) that is part of the mobile phone’s serial number. Please refer to Chapter 9 “X2TEST Editor”. Aeroflex may offer updates and additional test scripts and configura- tion files available on its website www.aeroflex.com in the Lector and Scriptor Downloads section.
  • Page 128 Chapter 5 Autotest Running an Autotest At the end of the test, the ProLock will show an overview of the results, together with a Pass or Fail statement. 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 129: Interpreting Autotest Results

    Chapter 5 Autotest Interpreting Autotest results Interpreting Autotest results Once a test has been started, the Result output section of the Autotest menu provides information about the progress, see picture below. In the results output on the right, text in blue color indicates instrument parameters which are being set up by the software.

  • Page 130: Viewing Results In Detail

    Chapter 5 Autotest Interpreting Autotest results In addition to a simple Pass or Fail verdict, the report summary also displays a failure code indicating the part of the test which failed. The failure code is composed of two parts as detailed in “Interpreting failure codes”...

  • Page 131: Viewing The Log File

    Chapter 5 Autotest Interpreting Autotest results Viewing the log file The ProLock can also display a log file of the internal communication flow between the Autotest interpreter and the SCPI command processor. This is, however, useful for debugging only and has limited value during normal operation.

  • Page 132: Transferring Result Files To A Pc

    Chapter 5 Autotest Interpreting Autotest results Table 8 Failure codes in the results summary (Continued) Technology and Type of test step that failed band information 0 – TX failure 6 – WCDMA Band 1 1 – RX failure 7 – WCDMA Band 2 2 –...
  • Page 133 Chapter 5 Autotest Interpreting Autotest results 2 Push the button. Transfer Test Data The Transfer Test Data menu appears. 3 Push the button. Do not remove the USB drive before Upload Data copying is completed! The ProLock will ask if data on the USB drive should be overwritten even if there are no results and log files on the USB drive.
  • Page 134 Chapter 5 Autotest Interpreting Autotest results 5 Confirm the message by pushing the softkey. The ProLock will now ask if the files that were copied should be removed from the ProLock. 6 Confirm with to delete or refuse with No. It is now safe to remove the USB flash drive and plug it into a USB slot of a PC .

  • Page 135: Configuring Autotest Operation

    Configuring Autotest operation Most of the configuration options for Autotest operation are configured with Aeroflex’s 7315 Scriptor. A few parameters, however, can be changed from within the ProLock, such as the radio channels, Blue- tooth testing or the results handling options.

  • Page 136: Gsm Settings

    Chapter 5 Autotest Configuring Autotest operation GSM settings There are three subtypes for the GSM 900 band. The E-GSM 900 band is the most popular one and is supported by most GSM phones. If a mobile phone does not support the E-GSM frequencies, select a channel numbers from the P-GSM band (see Table A frequency for the BCCH (Broadcast Control Channel or base channel)
  • Page 137 Chapter 5 Autotest Configuring Autotest operation Table 10 WCDMA frequency bands (Continued) Frequenc Downlink Region or Uplink channels y band channels designation Band II 9262—9538, 9662—9938, North Amer- 12, 37, 62, 87, 412, 437, 462, ica (PCS (UMTS 112, 137, 162, 487, 512, 537, band) 1900)

  • Page 138: Result File Handling

    Chapter 5 Autotest Configuring Autotest operation Table 10 WCDMA frequency bands (Continued) Frequenc Downlink Region or Uplink channels y band channels designation Band X 2887—3163, 3112—3388, 3187, 3212, 3412, 3437, (UMTS 3237, 3262, 3462, 3487, 1700) 3287, 3312, 3512, 3537, 3337, 3362, 3562, 3587, 3387, 3412,...

  • Page 139: Report Summary Storage

    Chapter 5 Autotest Configuring Autotest operation .\IMEI.txt The ProLock stores the results in a folder. The file name is determined by the serial number of the mobile phone (the IMEI); if the same phone is tested multiple times, the serial number in the file name is amended by a new letter for each new test.

  • Page 140: Multiple Result File Naming

    Chapter 5 Autotest Configuring Autotest operation Date(DD.MM.YYYY).txt The results summary is stored in a file in pure text format, containing the same information as shown on the screen. Fixed csv file With this selection, the fields of the results summary are separated by commas and stored in a file (CSV format, comma-separated values).

  • Page 141: Affecting The Test Run

    Configuring Autotest operation Affecting the test run Bluetooth Test Most of the Aeroflex-provided tests include a test sequence to check the Bluetooth device of the phone. The Bluetooth check requires the 1488 Bluetooth Connectivity Test Option and the 4941 Bluetooth Hard- ware to be installed in the ProLock.
  • Page 142 Aeroflex Database + User Database When the ProLock identifies the type of phone, it first looks for phone- specific data in the Aeroflex database and if there are no data available, it look them up in the user database. 2201 ProLock Firmware version 2.00...

  • Page 143: Installing A Coupling Factor Update

    2260 Coupling Factor Update License provides the coupling factors for use with Aeroflex’s 4921 RF Shield and 4916 Antenna Coupler. Updates are currently provided at least once per month over the Internet.
  • Page 144 Chapter 5 Autotest Installing a coupling factor update 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 145: Chapter 6 Maintenance And Troubleshooting

    Maintenance and Chapter 6 Troubleshooting This chapter describes how to identify and correct problems related to the 2201 ProLock. Topics discussed in this chapter are as follows: – “Calibration and adjustment” on page 128 – “Obtaining the instrument status” on page 129 –...

  • Page 146: Calibration And Adjustment

    Calibration and adjustment The 2201 ProLock is a measurement device. As with all such instru- ments, ProLock should be calibrated on a regular basis to ensure accu- racy. Aeroflex recommends calibration of the 2201 at yearly intervals. 2201 ProLock Firmware version 2.00...

  • Page 147: Obtaining The Instrument Status

    Chapter 6 Maintenance and Troubleshooting Obtaining the instrument status Obtaining the instrument status For service and support purposes, it may be useful to see the instru- ment status in terms of firmware and hardware. 1 The serial number, the firmware version and the date of the last calibration can be found on the start menu.

  • Page 148: Changing The Firmware Version

    Maintenance and Troubleshooting Changing the firmware version Changing the firmware version Aeroflex seeks to permanently improve its products. Firmware updates are available on the Internet at www.aeroflex.com. ProLock allows you to install a new firmware version from a USB flash drive or an FTP server, change between several versions stored on the hard disk, or delete a stored version.

  • Page 149: Chapter 6 Maintenance And Troubleshooting Changing The Firmware Version

    Chapter 6 Maintenance and Troubleshooting Changing the firmware version 7 Select the file of the firmware version you want to install, and push Install The file is copied from the USB flash drive to ProLock’s internal hard disk, and the installation is started. At the end of the update, the softkey description will change to “Reboot”.

  • Page 150: Loading A Different Firmware Version

    Chapter 6 Maintenance and Troubleshooting Installing software options Loading a different The following steps can be taken to run a different firmware version that is already stored on ProLock’s hard disk. firmware version 1 From the start menu, push Config. > Service The Service menu appears.

  • Page 151: Troubleshooting

    1 Ensure that ProLock is running the latest firmware. (The version number of the firmware installed can be checked on the start menu. The latest firmware is available from Aeroflex’s website at www.aeroflex.com.) 2 To permanently install a new software option, push .
  • Page 152 Chapter 6 Maintenance and Troubleshooting Troubleshooting 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 153: Appendix A Tables

    Tables Appendix A This appendix lists various parameter tables that the other chapters refer to, as follows: – “Power control levels and tolerances” on page 136 – “WCDMA channel numbers and frequency bands” on page 139 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 154: Power Control Levels And Tolerances

    Appendix A Tables Power control levels and tolerances Power control levels and tolerances GSM 850 and GSM 900 systems Power Nominal output control Tolerance (dB) power (dBm) level 43 (GSM phase 1 ±2 only) 41 (GSM phase 1 ±2 only) 0...2 ±2 ±3...

  • Page 155: Gsm 1900 Systems

    Appendix A Tables Power control levels and tolerances ±3 ±3 ±3 ±3 ±3 ±3 ±3 ±3 ±3 ±3 ±4 ±4 ±4 ±4 ±4 ±5 15...28 ±5 GSM 1900 systems Power Nominal output control Tolerance (dB) power (dBm) level 22...29 reserved reserved ±2 ±2...
  • Page 156 Appendix A Tables Power control levels and tolerances ±3 ±4 ±4 ±4 ±4 ±4 ±5 ±5 16...21 reserved reserved 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 157: Wcdma Channel Numbers And Frequency Bands

    Appendix A Tables WCDMA channel numbers and frequency bands WCDMA channel numbers and frequency bands “…” indicates that all integer numbers in between can be used, with the carrier frequencies spaced 0.2 MHz apart from each other. Downlink Uplink Downlink Uplink Frequency channel...
  • Page 158 Appendix A Tables WCDMA channel numbers and frequency bands Downlink Uplink Downlink Uplink Frequency channel channel carrier carrier band numbers numbers frequencies frequencies Band V 1007 871.5 826.5 1012 872.5 827.5 1032 876.5 831.5 1037 877.5 832.5 1062 882.5 837.5 1087 887.5 842.5...
  • Page 159 Appendix A Tables WCDMA channel numbers and frequency bands Downlink Uplink Downlink Uplink Frequency channel channel carrier carrier band numbers numbers frequencies frequencies Band X 3112 2887 2112.4 1712.4 … … … … 3388 3163 2167.6 1767.6 3412 3187 2112.5 1712.5 3437 3212...
  • Page 160 Appendix A Tables WCDMA channel numbers and frequency bands 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 161: Appendix B Warranty And Repair

    Warranty and Repair Appendix B This chapter describes the customer services available through Aero- flex. Topics discussed in this chapter include the following: – “Warranty information” on page 144 – “Equipment return instructions” on page 145 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 162: Appendix B Warranty And Repair Warranty Information

    (except batteries) which in Aeroflex’s sole opinion proves to be defective within the scope of the warranty. In the event Aeroflex is not able to modify, repair or replace nonconforming defective parts...

  • Page 163: Equipment Return Instructions

    If possible, return the equipment using the original shipping container and material. Additional Aeroflex shipping containers are available from Aeroflex on request. If the original container is not available, the unit should be carefully packed so that it will not be damaged in transit.
  • Page 164 Appendix B Warranty and Repair Equipment return instructions 2201 ProLock Firmware version 2.00 www.valuetronics.com...

  • Page 165: End User License Agreement

    End-User License Agreement Appendix C This appendix describes the conditions for using the instrument soft- ware (firmware). 2201 ProLock Firmware version 2.00 www.valuetronics.com...
  • Page 166 Appendix C End-User License Agreement All copyrights in and to the software product are owned by Aeroflex or its licensors. The software is protected by copyright laws and interna- tional copyright treaties, as well as other intellectual property laws and treaties.

  • Page 167: Publication History

    1105-200-A Features for firmware version 2.00 added (HSDPA). Aeroflex and its logo are trademarks of Aeroflex Incorporated. All other trade- marks and registered trademarks are the property of their respective owners. Specifications, terms and conditions are subject to change without notice.
  • Page 168 We reserve the right to make design changes without notice. All trademarks are acknowledged. i n f o - t e s t @ a e r o f l e x . c o m Parent company Aeroflex, Inc. ©Aeroflex 2011. www.valuetronics.com...

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