SYSTEM DATA. IDA e Hardware Configurations for PULSE Types 3560-B, 3560-C, 3560-D and 3560-E

SYSTEM DATA IDA e Hardware Configurations for PULSE Types 0-, 0-C, 0-D and 0-E PULSE is a versatile, task-oriented sound and vibration analysis system. It provides the platform for a range of PC-based measurement solutions from rüel & jær. A PULSE system consists of a PC with LAN interface, PULSE software, Microsoft Windows operating system, Microsoft Office, and data acquisition front-end hardware. Up to 0 front-ends can be combined into one measurement system with more than 00 input channels. This System Data describes the hardware available for Data Acquisition Front-ends Types 0-, C, D and E. PULSE Software as well as PULSE Pocket Analyzer Type 0-L and the PULSE Lite software are described separately. USES AND FEATURES USES Multiframe systems comprising up to 0 front-ends with synchronous sampling between front-ends for real-time measurements on more than 00 channels: Type 0-: input and output channel Type 0-C: modules. Up to 7 input and/or generator output channels Type 0-D: 7 modules. Up to input and/or 0 generator output channels Type 0-E: 0 modules. Up to 9 input and/or generator output channels) Signal and system analysis using all PULSE application packages for, or example: Time data acquisition - General noise and vibration measurements - asic and advanced acoustics - Structural Analysis - Machine Diagnostics Electroacoustic testing FEATURES input modules with single, 0 d input range Automatic detection of front-end hardware and transducers supports IEEE.-capable transducers with TEDS (Transducer Electronic Data Sheet) Fully conditioned input and output channels for microphones and accelerometers, charge transducers, CCLD transducers and other transducers acting as voltage sources Full overload detection including out-of-band overload and indication of incorrect conditioning LAN interface allows the front-end to be placed close to the test object and reduces transducer cable length Rugged design for industrial use attery (0-, C only)/external DC operated acquisition unit for field use Low-noise operation

attery status On/Off Follow/Ext. power 7/-'89 7/-'89 7/-'89 khz 7/-'89 rüel rüel &jær khz rüel &jær khz &jær rüel &jær khz /-ch. / Module Type 0E /-ch. / Module Type 0E 7/-'89 rüel & jær 00Mbit LAN Interface Module Type 7 /-ch. / Module Type 0E /-ch. / Module Type 0E /-ch. / Module Type 0E 7/-'89 rüel &jær 00Mbit Multi Frame Control No Yes First or Last Frame Aux. I/O Tx LAN Cable Lock All Sockets Rx RS- / ch. / Controller Module Type 77A /-ch. / Module Type 0E rüel & jær 0-V /-ch. / Module Type 0E 7/-'89 Error On/Off Ext. Supply Ext. Supply Live Fuse 0 A Ground Fuse 0 A Power-Supply Module Type 8 Follow Ext. Power 7/-'89 7/-'89 7/-'89 7/-'89 rüel & khz 7/-'89 rüel & jær khz rüel & 7/-'89 jær jær khz rüel & jær khz rüel &jær rüel & jær 0Mbit Error 0 Error On/Off Stop Clock Overload Ext. Supply Sync. Power on/off Control Follow Ext. Power On Off Ext. Int. Ext. Supply Clock In Aux. Sync. In I/O 0-V Live Fuse 0 A Tx LAN Clock Out Ground Fuse 0 A Rx Sync. Out 7/-'89 rüel &jær 00Mbit Multi Frame Control No Yes First or Last Frame Aux. I/O Tx LAN Cable Lock All Sockets Rx RS- / ch. Controller Module Type 77 rüel & jær Tx Rx Multi Frame Control No Yes First or Last Frame Aux. I/O LAN Cable Lock All Sockets 00Mbit / ch. / Controller Module Type 78 RS- /-ch. / Module Type 09 attery status Ext. Power 0-V Power-Supply Module Type 8 rüel & jær Multi Frame Control No Yes First or Last Frame Aux. I/O Tx LAN Rx 7/-'89 Cable Lock RS- LAN Interface Module Type 7 00Mbit RS- / ch. / Controller Module Type 77A rüel & jær Aux. I/O Tx LAN Rx Multi Frame Control No Yes First or Last Frame All Sockets Cable Lock All Sockets 00Mbit / ch. / Controller Module Type 78A RS- 7/-'89 rüel &jær khz 7 8 9 -ch. Module Type 08 rüel & jær 0 ch. Module Type 00 0 9 8 7 khz 7/-'89 rüel &jær khz - rüel & jær -ch. Module Type 08-7- 7- -ch Module Type 00 0 9 8 7 khz 0 9 8 7 7/-'89 rüel &jær khz -ch. Module Type 09 rüel & jær ch. Module Type 0 khz rüel &jær - 7/-'89 -ch. Module rüel & jær Type 09 - khz -ch Module Type 0 khz /-ch. / Module Type 09 attery status On/Off Follow/Ext. power 7/-'89 7/-'89 7/-'89 khz 7/-'89 rüel rüel &jær khz rüel &jær khz & jær rüel &jær khz /-ch. / Module Type 0E 7/-'89 7/-'89 7/-'89 rüel & jær khz rüel & jær khz rüel &jær Stop Overload Overload 7 8 9 rüel & jær khz 0 ch. Module Type 00 Monitor /-ch. / Module Type 0E /-ch. / Module Type 0 /-ch. / Module Type 0E /-ch. / Module Type 0E 7/-'89 rüel &jær 00Mbit Multi Frame Control No Yes First or Last Frame Aux. I/O Tx LAN Cable Lock All Sockets Rx RS- / ch. / Controller Module Type 77A /-ch. / Module Type 0E /-ch. / Module Type 0E rüel &jær 0-V NC 7/-'89 Error On/Off Ext. Supply Ext. Supply Live Fuse 0 A Ground Fuse 0 A Power-Supply Module Type 8 Follow Ext. Power /-ch. / Module Type 0E 7/-'89 7/-'89 7/-'89 7/-'89 rüel & khz 7/-'89 rüel & jær khz rüel & 7/-'89 jær jær khz rüel & jær khz rüel &jær rüel & jær 0Mbit Error 0 Error On/Off Stop Clock Overload Ext. Supply Sync. Power on/off Control Follow Ext. Power On Off Ext. Int. Ext. Supply Clock In Aux. Sync. In I/O 0-V Live Fuse 0 A Tx LAN Clock Out Ground Fuse 0 A Rx Sync. Out attery status Ext. Power /-ch. / Module Type 09 0-V Power-Supply Module Type 8 RS- LAN Interface Module Type 7 Tx Rx 7/-'89 rüel &jær 00Mbit On / Off Multi Frame Control No Yes First or Last Frame Aux. I/O Tx LAN Cable Lock All Sockets Rx RS- / ch. / Controller Module Type 77A Multi Frame Control No Yes First or Last Frame Aux. I/O LAN Ext Power 0 to v Follow Ext. Power Off On All Sockets Cable Lock RS- rüel & jær attery status attery status AUX Power 7/-'89 rüel & jær 00Mbit Multi Frame Control No Yes First or Last Frame Aux. I/O Tx LAN Cable Lock All Sockets Rx RS- / ch. / Controller Module Type 77A On / Off Multi Frame Control No Yes First or Last Frame Aux. I/O Tx LAN All Sockets Rx Ext Power 0 to v Follow Ext. Power Off On Cable Lock RS- rüel & jær attery status attery status AUX Power Introduction PULSE is a versatile, task-oriented system for noise and vibration analysis. It provides the platform for a range of PC-based measurement solutions from rüel & jær. A PULSE system consists of a PC with LAN interface, PULSE software, Windows 000, XP or Windows Vista, Microsoft Office and IDA e -based data acquisition front-end hardware. A system can contain more than 00 input channels located in up to 0 front-ends. The input/ output conditioning modules perform signal conditioning and digitise the transducer signals. The IDA e modules available for use in PULSE systems are shown in Fig. and listed in the Ordering Information on page. Modules can be freely mixed in a single front-end or in a multiframe system. Further information on the controller and input/output modules is given in Table. Fig. Overview of the components available for use in a PULSE System with LAN Interface Standard configurations for a wide variety of applications are described in the PULSE Analyzers & Solutions Catalogue both printed (F 009) and on www.bksv.com For information on PULSE Pocket Analyzer Type 0-L, see the separate Product Data (P 97) PC 0-0-C Single Front-end AO-9 (m) LAN Portable Power Supply Unit 87 0-D Enclosure -000 Power Supply 8 PC LAN AO-0 (m) Ethernet Switch UL-09 LAN AO-0 (m) Multiple Front-ends Power AQ-0 0-0-C 0-D 0-E NC Cable AO-0087 (.m) NC T-Connector JJ-0 T-Connector JJ-0 NC Cable AO-0087 (.m) 0-E Rack Mounting WU-0 Power Supply 8 Standard Modules for 0-C, D, E Controller Modules / Modules lank Module Standard 0-7 77 79 77-A 79-A 08 08-09 09-09 0 UA- 0--00 0--00 0--00 0--00 Modules for 0-C, D, E Controller Modules / Modules 0-78 70 78-A 70-A 00 00-0 0-0 Charge 0--0 0--0 0--0 0--0 009/0

Table Types and modules comprising PULSE front-ends Type Product Name Frequency Range Aux. Channels Simultaneous Channels Connectors Type Type 0-0--00 Direct/CCLD LEMO a, b /Mic. Preamp. 0--0 Conditioning c 0--00 Sine Direct/CCLD Aux -channel PULSE Data 0Hz to d NC a 0--0 Conditioning c (0 samples/s) 0--00 Acquisition Unit. khz Digital Direct/CCLD LEMO a, b /Mic. Preamp. 0--0 Conditioning c 0--00 Generator Direct/CCLD NC a 0--0 Conditioning c Types 0-C, D, E C D E 09 0 08 00 08-00- 09 0 09-0- 0 Generator, /-ch. / Module Generator, /-ch. / Module -ch. Module -ch. Module -ch. Charge & CCLD Module 0Hz to. khz 0Hz to 0.8 khz 0Hz to. khz 0Hz to. khz Generator NC and LEMO Generator e UA- lank Module 7 Controller Module 77 78 79 Aux d 70 /-ch. / (0 samples/s) Generator 0Hz to 77-A Controller Module. khz Digital 78-A Sine 79-A 70-A Generator a. Constant Current Line Drive for DeltaTron and ICP Accelerometers or Microphone Preamplifier b. Using adaptor cables c. All input channels can be used for tachometer operation Sine NC Direct/CCLD a /Mic. Preamp. Conditioning c Direct/CCLD a Conditioning 8 Sub-D Direct/CCLD a /Mic. Preamp. b NC and LEMO Sub-D NT/NC and TNC LEMO NC Direct/CCLD a /Mic. Preamp Conditioning c Direct/CCLD a /Mic. Preamp. b Charge/Direct/CCLD a Conditioning on NT Connector Direct/CCLD a, b /Mic. Preamp. Conditioning c Direct/CCLD a Conditioning c of these modules Up to 7 input channels of these modules Up to of these modules Up to input channels of these modules Up to 8 of these modules Up to 9 input channels d. Only -channel currently supported in PULSE software e. Upper frequency @ 0. khz modules See Modules Types 78/8-A, 70/0-A, 0, 00/0-, 0/-, 0--0/0/0/0 on page. of these modules PULSE Type 0- Compact Data Acquisition Unit, up to Channels FEATURES Compact, robust casing for industrial and hard everyday use attery operated ( hours continuous) or DC powered (0 V) Silent operation to C Cooling fans can be turned off for silent operation (will automatically restart if too hot) Synchronous sampling with other PULSE front-ends Type 0- is a compact data acquisition system for battery/dc powered operation. The unit handles communication with the PC, measurement input and provides a sample clock. Eight versions are available, four standard and four see the upper portion of Table. A handle, UA-89, is available for mounting on top of Type 0-, making it easier to carry.

PULSE Type 0-C Portable Data Acquisition Unit, up to 7 Channels FEATURES Houses one input/output module and one controller module Robust casing for industrial and hard everyday use Rain cover for front panel allows passage of cables attery operated or DC powered (0 V) Cooling fans can be turned off for silent operation (will automatically restart if too hot) Synchronous sampling with other PULSE front-ends Type 0-C is a portable data acquisition system with a battery/ DC powered Type 87 power supply unit. It can hold any combination of Controller Module and / Module (see Fig. and Table ). The controller module handles communication with the PC while the input/output module handles measurement input and provides a sample clock. As an example, a Type 0-C fitted with a /-ch. / Controller Module Type 77 and a -ch. Module Type 08 can measure up to 7 input channels. Environmental To survive the harsh electrical environment found in, for example, cars, Type 0-C has specifications that exceed the European EMC immunity requirements. ISO 77 and 77 Road Vehicles Electrical disturbance by conduction and coupling requirements are met. Mechanical robustness is equally high, meeting MIL STD 80C and IEC 008. Since all portable PULSE systems are built for outdoor use, they meet strict requirements for temperature and humidity. The operating temperature range extends from 0 to +0 C (+ to F). Type 0-C will withstand rain if kept with the front panel facing upwards and the protection cover in place. PULSE Type 0-D Multichannel Portable Data Acquisition Unit, up to Channels FEATURES Houses up to input/output modules, Power Supply Type 8 and one controller module Robust casing for industrial and hard everyday use DC powered (0 V) or via AC/ DC convertor Main cooling fans can be turned off for nearly silent operation (will automatically restart if too hot) Synchronous sampling with other PULSE front-ends Type 0-D is a data acquisition system comprising a frame that contains 7 modules. One of these must be the DC Power Supply Unit Type 8, and one must be a Controller Module. The remaining modules can be freely chosen from the I/O modules (see Fig. and Table ). a a. Note that one input module is always required, so the minimum input module configuration for Type 0-D is: Type 8 + Type 7 + one input module; or Type 8 + one of Types 77, 77-A, 78, 78-A, 79, 79-A, 70, 70-A

PULSE Type 0-E Multichannel Data Acquisition Unit, up to 9 Channels FEATURES Comprises up to 8 input/output modules, Power Supply Type 8 and one controller module DC powered (0 V) or via AC/DC convertor Optional Rack Mounting Enclosure Q-0, Air Guide EA- 00 and Fan Unit UH-07 Synchronous sampling with other PULSE front-ends Type 0-E is a rack-mounted data acquisition system comprising 0 modules. One of these must be the DC Power Supply Unit Type 8, and one must be a Controller Module. The remaining 8 modules can be freely chosen from the I/O modules (see Fig. ) a. The system is delivered with a 9 Rack Mounting it, as shown above. A 9 Rack Enclosure Q-0, Air Guide EA-00 and Fan Unit UH-07 are available for rack-mounted systems. Power Supply Types 0- and 0-C can either be powered by two internal Nickel-Metal Hydride batteries or from a 0 V DC power supply. A 00 0 V AC mains supply unit is included. The unit can be switched on and off from the front panel or, when using more than one front-end in one system, the on/off function can be controlled by another front-end using the Multiframe Control signal. A third possibility is to follow an external DC power supply, so that it switches on when the supply is connected. When batteries are used b, indicators on each side of the front panel indicate the condition of the batteries, allowing hot swap without interrupting measurement. When connected to an external DC supply, the batteries are charged automatically. Types 0-D and 0-E can be powered from a 0 V DC power supply. An external 00 0 V AC mains supply unit, ZG-00, is provided. The unit is a Type 8 that can be switched on and off from the front panel or, when using more than one front-end in one system, the on/off function can be controlled by another front-end using the Multiframe Control signal. A third possibility is to follow an external DC power supply, so that it switches on when the supply is connected. DC To provide power for accessories such as a LAN switch or wireless LAN for interconnecting more front-ends, Types 0-, C and D have a and V DC output (LEMO FGG.00.0 connector) with fuse. Cables for these accessories must be ordered separately. Silent Operation, Cooling Type 0- is silent, operating without fans at ambient temperatures up to C (9 F). Above this temperature the fans start up, but can be switched off from the PULSE software. a. Note that one input module is always required, so the minimum input module configuration for Type 0-E is: Type 8 + Type 7 + one input module; or Type 8 + one of Types 77, 77-A, 78, 78-A, 79, 79-A, 70, 70-A b. atteries are not included.

Types 0-C and 0-D: During operation fans keep the temperature of the unit within safety limits. In measurement situations where the fan noise a can influence measurement results, the fans can be switched off from the PULSE software. If overheating threatens, the fans are automatically turned on again. Modules Types 78/8-A, 70/0-A, 0, 00/0-, 0/-, 0--0/0/0/0 Fig. Simplified block diagram of principle technology Exclusive Range from 0 to 0 d is an innovative range of state-of-the-art input modules with a single Super wide range analog input range from 0 to input 0 V p and a useful analysis range exceeding 0 d. ADC -bit ADC -bit Real-time DSP -bit Σ -bit 009 To date, high-quality transducers and preamplifiers have outperformed measuring equipment with regard to linearity and dynamic performance, being able to deliver a noise- and distortionfree signal over a dynamic signal range of 0 to 0 d broadband and 0 d narrow-band. Fig. 0 d analysis in one range. An FFT measuring a Hz signal 80 d below fullscale (7 V rms ). Note that noise and all spurious components measure 0 d below full scale input Now, with technology, the entire measurement and analysis chain for the first time matches or outperforms the transducer used for measurement. This eliminates the need for an input attenuator for ranging the analysis system input to the transducer output. All that you need to do to get excellent results is choose the right transducer. Transducer Overload Transducer max. output level can be entered in the software. If the input exceeds this level, then modules will give as overload warning on the front-end and in the PULSE Level Meter. Accuracy, Safety and Efficiency With no input range to set, you no longer have to worry about overloads, underrange measurements or discussions about the validation and verification of measurement results. And with no need for trial runs to ensure that the input range is correct, you have a far greater certainty of getting measurements right first time. The measurement situations and applications below are examples of where the new technology can be usefully employed: When you need to get the measurement right first time Where there s minimal user interaction Crash testing Destructive testing Heavy machinery run up/ coast down Road testing Field testing When time is limited Test cells Wind tunnels Road testing Flight testing When testing is unattended Production line Noise monitoring When signal levels are unknown When an overview of the whole measurement scenario is difficult Run up/down Field testing When measuring many channels When combining more signal types: Vibration, Sound, Temperature, Pressure, RPM, etc. Test cells In-car testing Sound, vibration and other parameters involved High-dynamic applications Impulsive testing, room acoustics Run up/down Electroacoustics Structural measurements a. See the Acoustic Noise Emission specifications for Types 0-C (page ) and 0-D (page ).

Channels Available Modules Standard Modules -ch. Module 08, 08-00, 00- -ch. Module 09, 09-0, 0- -ch. Charge & CCLD Module 0 / Modules Generator, /-ch. / Module 09 Generator, /-ch. / Module 0 / Controller Modules /-ch. / Controller Modules /-ch. / Controller Modules with Generator 77, 77-A (0--00/00) 79, 79-A (0--00/00) 78, 78-A (0--0/0) 70, 70-A (0--0/0) USES channels for multichannel acoustic and vibration measurements FEATURES Support IEEE. capable transducers with TEDS Automatic DC offset compensation Overload indicator indicates incorrect conditioning and cable breaks on connected transducers Overload detection including out-of-band frequencies Functions and features available in the modules are determined by software implemented and downloaded from PULSE LabShop. Independent Channels The input channels on a module can be set up independently; you can set up the high-pass filters and input gain separately and attach different types of transducers to different channels. The microphone polarization voltage can be switched on for all channels. (Note: Where polarization voltage is available, it is the same on all microphone channels in a module). IEEE. Transducers modules supports IEEE. capable transducers with standardised Transducer Electronic Data Sheets (TEDS). This feature allows automatic front-end and analyzer setup, based on information stored in the transducer. This information includes, for example, sensitivity, serial number, manufacturer and calibration date. Transducer Conditioning Check modules use two methods to detect transducer cable breaks or whether the wrong conditioning has been chosen. For microphones, their supply current is monitored. For DeltaTron accelerometers (or microphones using DeltaTron preamplifiers), the supply voltage is monitored. If conditioning errors such as a broken cable are detected, an error event is indicated as an overload on the specific channel. 7

Table Overview of modules with input channels 77 77-A Standard 08 08-09 09-09 0 79 79-A 78 78-A 0 00 00-0 0-70 70-A Channels Frequency Range. khz 0.8 khz. khz NC (CCLD a /Direct) b 0 NT (CCLD a /Direct/) b Ch. Ch. and 7 Ch. Ch. Ch. Ch. TNC (Charge) LEMO (Preamp.) 7-pole D-sub Supports Charge Injection Calibration (CIC) check with LEMO microphone preamplifiers c Yes d Yes Yes Yes Yes Yes Yes d Intensity Phase Matching All NT/ NC +, + +, + d + + d Ch. and All + From 00: All channels From 00: All channels : All channels : All channels AD converters -bit to. khz -bit to. khz -bit to. khz, -bit to 0.8 khz -bit to. khz Floating/Non-floating Yes Yes Microphone Polarization 0 or 00 V a. Including DeltaTron and ICP b. Charge operation can be obtained directly using Type 0 or by using Charge to DeltaTron Converter Type 7 with other modules c. Via dedicated application software and OLE interface d. Via AO-00 7-pole to LEMO Adaptor Cable -ch. Charge & CCLD Module Type 0 -channel Charge & CCLD Module Type 0 is designed specifically to allow the direct connection of charge transducers to a PULSE system. Each channel also has DeltaTron capability for IEPE transducers, and can also be used for direct input of voltages. Type 0 compliments the other input modules in the PULSE IDA e range, and incorporates technology to give a useful measurement range of 0 d on each channel. CCLD and Voltage s The voltage and DeltaTron inputs are via NC connectors, and each channel has the same specification as the other input channels, such as those found on Types 00 and 0. Charge s TNC connectors are provided for charge transducers. These provide the most stable charge contact for avoiding triboelectric noise from vibrations. TNC to microdot (0 UNF) adaptors are included. The technology ensures optimal transducer support and ease of use and makes it possible to condition all charge transducers in only two input ranges ( nc or 0 nc), while still providing state-of-the-art performance. Selectable dedicated highpass (0.,, 0 and 0 Hz) are provided, while low-pass filters (0.,,, 0 and 0 khz) allow efficient damping of the high accelerometer sensitivity at resonance, thus optimising the useful dynamic range. 8

Channels Available Generator Modules Standard / Modules Generator, /-ch. / Module 09 Generator, /-ch. / Module 0 / Controller Modules /-ch. / Controller Modules /-ch. / Controller Modules with Generator 77, 77-A (0--00/00) 79, 79-A (0--00/00) 78, 78-A (0--0/0) 70, 70-A (0--0/0) USES Generator output channels for system excitation for acoustic and vibration measurements FEATURES Type 09: output channels: Full generator functionality to. khz Type 0: output channel: Full generator functionality to 0. khz Types 79, 79-A (0--00/00), 70, 70-A (0--0/0): output channel: Full generator functionality to. khz Waveforms determined by PULSE software (see U 09) Types 77, 77-A (0--00/00), 78, 78-A (0--0/0): output channel: Sine waveforms up to. khz; sine wave only Type 09 The two output channels on Type 09 can be used as signal generators with a frequency range from 0 to. khz and can supply all the signals necessary for performing system analysis. Type 09 is designed around a powerful digital signal processor and a -bit D/A converter, and has exceptional flexibility, stability and accuracy. levels are adjustable in hardware, with maximum output ranging from mv to V RMS. Lower levels are possible by scaling the signal to the D/A converter. The signal is provided by a NC connector and can be referred to ground or floating. It is possible to add a DC offset, but any unwanted DC offset is automatically removed. Emergency Stop The connector at the top of the module allows connection to an emergency stop control, allowing you to stop the generators immediately. Type 0 The output channel on Type 0 can be used as signal generator with a frequency range from 0 to 0. khz and can supply all the signals necessary for performing system analysis. The generators are controlled from PULSE software. Type 0 is designed around a powerful digital signal processor and a -bit D/A convertor, and has exceptional flexibility, stability and accuracy. The full dynamic output range is obtained from 7 mv to 7 V peak. Lower levels are possible by scaling the signal to the D/A converter. The signal is provided by a NC connector and can be referred to ground or floating. It is possible to add a DC offset, but any unwanted DC offset is automatically removed. 9

Monitor An input monitor signal is available on a NC connector for each input channel. The signal is taken after the high-pass filter but before the anti-aliasing filter. The signal level is. V p for full-scale input in any range. The signal is always referred to (chassis) ground. Types 79, 79-A, 70, 70-A The output channels on these modules can be used as signal generators with a frequency range from 0 to. khz and can supply all the signals necessary for performing system analysis. The modules are designed around a powerful digital signal processor and a -bit D/A converter, and have exceptional flexibility, stability and accuracy. The signal is provided by a NC connector and can be referred to ground or floating. It is possible to add a DC offset, but any unwanted DC offset is automatically removed. Types 77, 77-A, 78, 78-A The output channels on these modules can be used as simple, high-quality sine tone generators with a frequency range from 0.00 to. khz. The maximum output voltage is V rms delivered in one output range through a -bit D/A converter. The signal is provided by a NC connector, and may be referred to ground or floating. Controller Modules Available Controller Modules 00 Mbit Controller Module /-ch. / Controller Modules /-ch. / Controller Modules with Generator Standard 7 77, 77-A (0--00/00) 79, 79-A (0--00/00) 78, 78-A (0--0/0) 70, 70-A (0--0/0) USES Communication interface between a PULSE Front-end and a PC running PULSE software, via LAN (Local Area Network) Measurement of voltage or physical parameters like position, wind speed or temperature via auxiliary input channels FEATURES Sets up and transmits data from input modules, provides sampling clock and synchronisation of front-ends Connection of remote control for sound intensity measurements via RS interface Data transfer according to standard TCP/IP protocol 0

Synchronisation and Stacking Controller Modules control and route all communication between the PC and the input/output modules, and transmit or receive synchronisation and clock signals to or from other front-ends. This enables up to 0 units to be combined to act as one multichannel system. It also enables all front-ends in a system to be turned on or off simultaneously. RS An RS interface on the front panel allows communication with the optional Remote Control Unit ZH-0 for sound intensity measurements. The interface is also used for setting up the LAN address and testing the frontend hardware. Auxiliary Channels DC channels a, present on a single connector, are each sampled 0 times per second. The channels are singleended and have six input ranges from 0. V to. V in 0 d steps. PULSE Software and Applications The base software for a PULSE system is Noise and Vibration Analysis Type 7700 with both FFT and CP analyzers, though separate FFT and CP licenses are available as FFT Analysis Type 7770 and CP Analysis Type 777. On this base, you can install any other PULSE software and applications such as Data Recorder Type 770 and Time Capture Type 770. For descriptions of the PULSE software please refer to the separate System Data, U 09. a. additional auxiliary inputs are included for future use, and open drain outputs, which allow for simple on/off control.

Compliance with Standards (For environmental specifications and compliance with standards for PCs, see the specifications given by their respective manufacturers) TYPES 0--00, -00, -00, -00, -0, -0, -0, -0, TYPES 0-C, 0-D AND 0-E WITH CONTROLLER MODULE TYPE 7, INPUT/OUTPUT CONTROLLER MODULE TYPE 77, 77-A, 78, 78-A, 79, 79-A, 70 OR 70-A INPUT/OUTPUT MODULE TYPE 0, 08, 08-, 09, 09-, 00, 00-, 0, 0-, 09 OR 0, Safety EMC Emission EMC Immunity Temperature Humidity Mechanical CE-mark indicates compliance with: EMC Directive and Low Voltage Directive. C-Tick mark indicates compliance with the EMC requirements of Australia and New Zealand. EN/IEC 00 : Safety requirements for electrical equipment for measurement, control and laboratory use. UL 00 : Standard for Safety Electrical measuring and test equipment. EN/IEC 000 : Generic emission standard for residential, commercial and light industrial environments. EN/IEC 000 : Generic emission standard for industrial environments. CISPR : Radio disturbance characteristics of information technology equipment. Class Limits. FCC Rules, Part : Complies with the limits for a Class digital device. EN/IEC000 : Generic standards Immunity for residential, commercial and light industrial environments. EN/IEC 000 : Generic standards Immunity for industrial environments. EN/IEC : Electrical equipment for measurement, control and laboratory use EMC requirements. Note: The above is only guaranteed using accessories listed in this System Data. IEC 008 & IEC 008 : Environmental Testing. Cold and Dry Heat. Operating Temperature: 0 to +0 C ( to F) Storage Temperature: to +70 C ( to 8 F) IEC008 78: Damp Heat: 9% RH (non-condensing at 0 C (0 F)) Operating (peak values) MIL STD 80C: Vibration:.7 mm, ms, 00 Hz Non-operating: IEC 008 : Vibration: 0. mm, 0 ms, 0 00 Hz IEC 008 7: Shock: 000 ms IEC 008 9: ump: 000 bumps at: 0 ms Enclosure IEC 09: Protection provided by enclosures: 0-: IP 0; 0-C: IP ; 0-D: IP 0; 0-E: IP 0 EFFECT OF RADIATED/CONDUCTED RF, MAGNETIC FIELD AND VIRATION Radiated RF: 80 000 MHz, 80% AM khz, 0 V/m Conducted RF: 0. 80 MHz, 80% AM khz, 0 V Magnetic Field: 0 A/m, 0 Hz Vibration: 00 Hz,.7 mm, m/s measured in 7.07 mv range with shorted input. All values are RMS. Conducted RF immunity on all channels is only guaranteed using an external connection from measuring ground to chassis terminal on Types 8 or 87 / Radiated RF Conducted RF Magnetic Field Vibration Direct/CCLD <0 μv <0 μv <μv <80μV Preamplifier <0 μv < μv <8μV <80μV Generator <0 μv < μv <μv < μv Charge <0 fc <0 fc <0 fc <80 fc Specifications PULSE Types 0-/C/D/E Multi-analyzer Systems Type 0-, 0-C, 0-D and 0-E with LAN interface are modular, expandable, multi-analysis systems that include the following components: Pentium PC PULSE software Microsoft Windows 000 or Windows XP or Windows Vista operating system Microsoft Office 000, 00, 007 or XP Front-end comprising: Power Supply/Frame, Controller Module and a number of / Modules (see below) Specifications Portable PULSE Type 0- POWER REQUIREMENTS Fulfils the requirements of ISO 77 and 77 with batteries Voltage: 0 V DC Power Consumption: Nominal: W Max.: W (while charging battery) Ext. Power Connector: LEMO coax., FFA.00., ground on shield ATTERIES Optional Accessories: DR NiMH or NI 00, 0.8 V (nominal) Working Time (Continuous): hours Charging Time: hours/battery ACOUSTIC NOISE EMISSION (at m) Silent operation to C (9 F) when not charging batteries. When charging batteries, fan operation may start at a lower ambient temperature

DC OUTPUT + V ± 0. V; max. 0. A ( A fused) + V ±.0 V; max. 0. A ( A fused) Connector: LEMO FGG.00.0 DIMENSIONS (WITHOUT PROTECTIVE COVER) Height: 8 mm (7. ) Width: mm (. ) Depth: 70 mm (0. ) Weight:. kg (. lb.) without batteries Specifications Portable PULSE Type 0-C POWER SUPPLY/FRAME Type 87 AVAILALE MODULES See "Ordering Information PULSE Systems 0-, 0-C, 0- D, 0-E" on page POWER REQUIREMENTS Fulfils the requirements of ISO 77 and 77 with batteries Voltage: 0 V DC Power Consumption: Without DC output and when fitted with: 7 Controller Module 09 /-ch. or 0 /-ch. / Module Nominal: 0 W Max.: W (while charging battery) Ext. Power Connector: LEMO coax., FFA.00., ground on shield ATTERIES Optional Accessories: DR NiMH or NI 00, 0.8 V (nominal) Working Time (Continuous): ½ hours Charging Time: hours/battery ACOUSTIC NOISE EMISSION (at m) d SPL, A-weighted at m d Lw, A-weighted Fan Off <7 < Normal ( C) 0 Max. DC OUTPUT + V ± 0. V; max. 0. A ( A fused) + V ±.0 V; max. 0. A ( A fused) Connector: LEMO FGG.00.0 DIMENSIONS (WITHOUT PROTECTIVE COVER) Height: 0 mm (. ) Width: 7 mm (.8 ) Depth: 00 mm (.8 ) Weight: kg ( lb.) with Controller Module and / Module. When fitted with batteries, kg ( lb.) Specifications Multichannel Portable PULSE Type 0-D POWER SUPPLY Type 8 FRAME (INCL. FAN UNIT) -000 AVAILALE MODULES See "Ordering Information PULSE Systems 0-, 0-C, 0- D, 0-E" on page POWER REQUIREMENTS Voltage: 0 V DC Power Consumption: Without DC output and when fitted with: 7 Controller Module W nominal with input module 00 W nominal with input modules Ext. Power Connector: Neutrik Powercon -pole Max. No. of Probes: in full frame DC OUTPUT + V ± 0. V; max. 0. A ( A fused) + V ±.0 V; max. 0. A ( A fused) Connector: LEMO FGG.00.0 ACOUSTIC NOISE EMISSION (at m) d SPL, A-weighted at m d Lw, A-weighted Fan Off 7 Normal ( C) 0 8 Max. 0 DIMENSIONS Height: 9 mm (7. ) with feet, 70 mm (.7 ) without feet Width: 7 mm (.8 ) Depth: mm (. ) Specifications Multichannel PULSE Type 0-E POWER SUPPLY Type 8 RAC MOUNTING IT WU-0 AVAILALE MODULES See "Ordering Information PULSE Systems 0-, 0-C, 0- D, 0-E" on page POWER REQUIREMENTS Voltage: 0 V DC Power Consumption: When fitted with: 7 Controller Module W nominal with input module 0 W nominal with 8 input modules Ext. Power Connector: Neutrik Powercon -pole Max. No. of Probes: in full frame DIMENSIONS Height: mm (. ) ( standard rack-mounting units) Width: 8. mm (9 ) Depth: 00 mm (.8 ) Weight: 8.7 kg (9 lb.) with Controller Module and 8 / Modules; 7. kg (8. lb.) with Q-0 and UH-07

Specifications Channels, Standard -bit and Standard -bit 77/7-A/9/9-A, 08/8-/9/9-0--00/00/00/00 78/8-A/0/0-A, 0 (NC/NT) 00/0-//-, 0--0/0/0/0 Frequency Range DC to. khz A/D Conversion -bit -bit Data Transfer -bit -bit selectable Voltage Range 8 ranges: 7.07 mv peak to 7.07 V peak in 0 d steps a, + V peak range: 0 V peak Signal Ground Coupling Floating or single-ended (grounded to chassis) Impedance Direct, Microphone: MΩ <00 pf CCLD: >00 kω <00 pf Absolute Maximum ±V peak without damage High-pass Filters DC (f L = 0) 0. d 0% d Slope 0% d Slope 0.7 Hz high-pass filter 0. Hz 0.07 Hz 0 d/dec. 0. Hz 0.07 Hz 0 d/dec. 7 Hz digital high-pass filter. Hz 0.707 Hz 0 d/dec.. Hz 0.707 Hz 0 d/dec.. Hz high-pass filter. Hz. Hz 0 d/dec.. Hz. Hz 0 d/dec. Intensity filter.00 Hz. Hz 0 d/dec..00 Hz. Hz 0 d/dec. Absolute Amplitude Precision, khz, V input ±0.0 d, typical ±0.0 d Attenuator Linearity @ khz ±0.0 d, typ. ±0.00 d Amplitude 0 to 0 d below full scale ±0. d, typ. ±0.0 d ±0.0 d, typ. ±0.0 d Linearity (linearity in 0 to 80 d below full scale ±0. d, typ. ±0.0 d ±0.0 d, typ. ±0.0 d one range) 80 to 00 d below full scale typ. ±0.0 d ±0. d, typ. ±0.0 d 00 to 0 d below full scale typ. ±0.0 d 0 to 0 d below full scale typ. ±0.0 d 0 to 0 d below full scale typ. ± d Overall Frequency Response re khz, lower limit f L to upper limit f U DC to max.. khz: ±0. d Noise: Range Guaranteed Typical Guaranteed Typical Measured lin. 0 Hz to. khz: V rms 7.07 mv <. (<). (<) Signal level < mv peak (input terminated by 0 Ω or less). mv < (<9). (<) 70.7 mv < (<). (<) < (<) (<9) (Values in parentheses are specified in. mv < (<8). (<) nv rms / Hz) 707. mv <7 (<07) (<8) Signal level > mv peak Spurious-free Dynamic Range (d) re full scale input (input terminated by 0 Ω or less). V <0 (<) (<07) 7.07 V <0 (<90) 00 (<) V <0 (<70) 0 (<90) <0 (<7) 0 (<) Range Typical Typical 7.07 mv 0 d. mv 0 d 70.7 mv 0 d. mv 0 d 0 d 707. mv 0 d. V 0 d 7.07 V 0 d V 0 d DC Offset re full scale Guaranteed Typical Guaranteed Typical < 0 d 80 d < 0 d 80 d Harmonic Distortion (all harmonics) Guaranteed Typical Guaranteed Typical All Ranges 80d 00d @ khz 80d 00d @ khz a In rare cases in CCLD mode or when measuring signals with a high DC level in the 7 mv peak and. mv peak ranges with 0.7 Hz or 7 Hz high-pass filter settings, an overload might be indicated. If this occurs, increase the input voltage range.

Specifications Channels, Standard -bit and (continued) Crosstalk etween any two channels of a module or between any two channels in different modules Frequency Range Guaranteed Typical Frequency Range Guaranteed 0. khz 00 d 0 d 0. khz 00 d 0 d Channel-to-Channel Match (same input range) Guaranteed Typical Guaranteed Typical Maximum Gain Difference f L is the 0. d frequency of the high-pass filter Maximum Phase Difference (within one frame) f L is the 0. d frequency of the high-pass filter 0. d from lower frequency limit, f L, to upper limit, f U ±0.0d. 0. (f/f L ) from f L to 0 f L (not valid for DC setting); 0. from 0 f L to 80 Hz (valid for DC setting); 0. + 0. (f/80) from 80 Hz to. khz Channel-to-Channel Match (any input range) Guaranteed Typical Sound Intensity Phase Match (only for using intensity filter) Maximum Gain Difference Maximum Phase Difference (within one frame) Channels Matched Frequency Range Standard -bit 77/7-A/9/9-A, 08/8-/9/9-0--00/00/00/00 0. d from lower frequency limit, f L, to upper limit, f U ±0.0d. 0. (f/f L ) from f L to 0 f L (not valid for DC setting); 0. from 0 f L to 0 Hz (valid for DC setting); 0. + 0. (f/0) from 0 Hz to. khz 0. d from lower frequency limit, f L, to upper limit, f U Typical ±0.0d. 0. (f/f L ) from f L to 0 f L (not valid for DC setting) 0. from 0 f L to. khz (valid for DC setting) 0. (f/00) from. khz to. khz Complies with IEC 0 standard Class and ANSI S. 99 Class using rüel & jær Sound Intensity Probes (0.07 @ 0 Hz) 77, 79: and 09, 09 : and 08, 08 : and, and All channels From 00: All channels Guaranteed Phase Match Typical Phase Match 78/8-A/0/0-A, 0 (NC/NT) 00/0-//-, 0--0/0/0/0 Guaranteed Phase Match Typical Phase Match 0 Hz 0 Hz ±0.07 ±0.00 ±0.07 ±0.00 0 Hz. khz 0.07 (f/0) ±0.00 0.07 (f/0) ±0.00. khz. khz ±0.7 ±0.08 ±0.7 ±0.08 Common Mode Rejection Guaranteed Typical Guaranteed Typical 0 0 Hz 70 d 80 d 70 d 80 d 0 Hz khz d 0 d d 0 d khz. khz 0 d 0 d 0 d 0 d Absolute Max. Common Mode Voltage ±V peak without damage ±V peak without clipping If common mode voltage exceeds the max. value, care must be taken to limit the signal ground current in order to prevent damage. Maximum is 00 ma. The instrument will limit the voltage to the stated max. without damage common mode value Anti-aliasing Filter Filter Type rd order utterworth At least 90 d attenuation of those 0. d @. khz frequencies which can cause aliasing d @ 00 khz Slope 8 d/octave Supply for Microphone Preamplifiers ±.0 V, 0 ma per channel (max. 0 ma if only to channels used) Supply for Microphone Polarization 00 V ± V, or 0 V Supply for DeltaTron/ICP /CCLD ma from V source If any DeltaTron/ICP /CCLD-coupled channel is parallelled with another channel, this must also be DeltaTron/ICP /CCLD-coupled. Otherwise the signal might be clipped by the parallelled channel Supply (on NT connectors). V, max. 00 ma Analog Special Functions Microphone Charge Injection Calibration: All modules with 7-pin LEMO support CIC via dedicated application software and OLE interface Analog Self-test: Functional Check Transducers: Supports IEEE. capable transducers with standardised TEDS Overload Detection b Signal overload CCLD overload: Detection of cable break or short-circuit + detection of CCLD transducer working point fault Microphone preamplifier overload: Detection of microphone preamplifier current consumption too high or too low Common mode voltage overload b In Direct AC mode, care must be taken when measuring signals with a very high DC component a DC + AC level exceeding approximately V can be clipped and an overload will not be indicated

Specifications Charge Channels, (all specifications for transducer capacitance = nf) 0 (TNC Charge s) a Frequency Range 0. Hz to. khz A/D Conversion -bit Data Transfer -bit Range ranges: 0 nc peak / nc peak Signal Ground Coupling Floating or single-ended (grounded to chassis) Absolute Maximum ±00nC peak without damage High-pass Filters b DC (f L = 0) Not available 0% 0% d Slope 0. Hz high-pass filter 0. Hz 0.0Hz 0 d/dec. Hz high-pass filter.0 Hz 0. Hz 0 d/dec. 0 Hz high-pass filter 0.0 Hz 7.88 Hz 0 d/dec. 0 Hz high-pass filter 0.0 Hz. Hz 0 d/dec. Low-pass Filters 0% 0% d Slope 00 Hz low-pass filter 00 Hz Hz 0 d/dec. khz low-pass filter.0 khz. khz 0 d/dec. khz low-pass filter.0 khz.khz 0 d/dec. 0 khz low-pass filter 0.0 khz. khz 0 d/dec. 0 khz low-pass filter 0.0 khz. khz 0 d/dec. low-pass filter bypassed See Anti-aliasing Filter Absolute Amplitude Precision, khz, V input ±0.0 d, typ. ±0.0 d Attenuator Linearity @ khz ±0.0 d, typ. ±0.00 d Amplitude Linearity 0 to 0 d below full scale ±0.0 d, typ. ±0.0 d (linearity in one range) 0 to 80 d below full scale ±0.0 d, typ. ±0.0 d 80 to 00 d below full scale ±0. d, typ. ±0.0 d 00 to 0 d below full scale typ. ±0.0 d 0 to 0 d below full scale typ. ±0.0 d 0 to 0 d below full scale typ. ± d Overall Frequency Response re khz, lower limit f L to upper limit f U Min. 0. Hz to max.. khz: ±0. d, 0% at f L and f U Noise: Range Signal Level Guaranteed Typical Measured lin. 0 Hz to. khz: fc rms nc < pc peak < (<) < (<9) (input terminated by nf) nc > pc peak < (<9) <7. (<7) (Values in parentheses are specified 0 nc <0 pc peak < (<9) <9 (<7) in ac rms / Hz [a = 0-8 ]) 0 nc >0 pc peak < (<07) <0 (<) Spurious-free Dynamic Range Range Typical (d) re full scale input (input terminated by nf) nc peak 0 d 0 nc peak 0 d DC Offset re full scale Not applicable Harmonic Distortion (all harmonics, all ranges) Guaranteed Typical 80d 00d @ khz Crosstalk Frequency Range Guaranteed Typical etween any two channels of a module or between any two channels in different modules 0. khz 9 d 0 d Channel-to-Channel Match (same input range) b Guaranteed Typical Maximum Gain Difference 0. d from lower frequency limit, f L, to / upper limit, f U 0.8 d at f L, 0. d at f U ±0.0d Maximum Phase Difference (within one frame) 0. from 0 f L to 0. f U 0. + (f/f U ) from 0. f U to f U For f L = 0 Hz or 0 Hz:. - 0. (f/f L ) from f L to 0 f L For f L = 0. Hz or Hz:. - 0. (f/f L ) from f L to 0 f L

Specifications Charge Channels, (continued) (all specifications for transducer capacitance = nf) Channel-to-Channel Match (any input range) b Guaranteed Typical Maximum Gain Difference Maximum Phase Difference (within one frame) 0 (TNC Charge s) a 0. d from lower frequency limit, f L, to / upper limit, f U d at f L, 0. d at f U 0. from 0 f L to 0. f U 0. + (f/f U ) from 0. f U to f U ±0.0d For f L = 0 Hz or 0 Hz:. 0. (f/f L ) from f L to 0 f L For f L = 0. Hz or Hz:. 0. (f/f L ) from f L to 0 f L Common Mode Rejection Guaranteed Typical 0 0Hz 0d d 0 Hz khz 0 d d khz. khz 0 d 0 d Absolute Max. Common Mode Voltage ±V peak without damage ±V peak without clipping If common mode voltage exceeds the max. value, care must be taken to limit the signal ground current in order to prevent damage. Maximum is 00 ma. The instrument will limit the voltage to the stated max. without damage common mode value Anti-aliasing Filter Filter Type rd order utterworth At least 90 d attenuation of those frequencies which can cause 0. d @. khz aliasing d @ 00 khz Slope 8 d/octave Supply (on NT connectors) Analog Special Functions Analog Self-test: Functional Check Overload Detection c Signal overload Common mode voltage overload DC servo out of range a.for CCLD and AC inputs see "Specifications Channels, Standard -bit and " on page b.for specifications with 0.7, 7 and. Hz high-pass filters, see the corresponding specifications for NC/NT channels c. Note: All overloads in charge mode are indicated as signal overload Specifications Channels, Types 09 and 0 09 0 Frequency Range DC to. khz DC to. khz DC to 0.8 khz A/D Conversion -bit for frequency -bit -bit range >. khz Data Transfer -bit -bit -bit -bit selectable Voltage Range 7 ranges: 7.07 mv peak to 7.07 V peak in 0 d steps 8 ranges: 7.07 mv peak to. V peak in 0 d steps Signal Ground Coupling Floating with 00 Ω to chassis Floating or single-ended (grounded to chassis) Impedance Direct, Microphone: MΩ <00 pf CCLD: > 00 kω <00 pf Absolute Maximum ±0V peak (±0 V DC) without damage ± V peak without damage High-pass Filters DC (f L = 0) 0. d 0% d Slope 0% d Slope 0.7 Hz high-pass filter 0. Hz 0.07 Hz 0 d/dec. 0. Hz 0.07 Hz 0 d/dec. 7 Hz digital high-pass filter. Hz 0.707 Hz 0 d/dec.. Hz 0.707 Hz 0 d/dec.. Hz high-pass filter. Hz. Hz 0 d/dec.. Hz. Hz 0 d/dec. Intensity filter.00 Hz. Hz 0 d/dec..00 Hz. Hz 0 d/dec. Absolute Amplitude Precision, khz, V input ±0. d ±0.0 d, typ. ±0.00 d Attenuator Linearity @ khz ±0. d ±0.0 d, typ. ±0.00 d 7

Specifications Channels, Types 09 and 0 (continued) Amplitude Linearity (linearity in one range) Overall Frequency Response re khz, f L to f U Noise: V rms (input terminated by 0 Ω or less) (Values in parentheses are specified in nv/ Hz) 0 to 0 d below full scale ±0. d 0 to 0 d below full scale ±0. d 0 to 0 d below full scale ±0. d, typ. ±0.0 d 0 to 80 d below full scale ± d ±0. d, typ. ±0.0 d 80 to 00 d below full scale typ. ±0.0d Range DC to max.. khz ±0.d Measured lin. 0 Hz to. khz Guaranteed 7.07 mv (9). mv (9) 70.7 mv (). mv 0 () 707. mv (9). V 00 () 7.07 V (980). V DC to max. 0.8 khz ±0. d, f L to. khz +0./ 0. d, f L to 0. khz +0./ 0. d, f L to 0.8 khz Measured lin. 0 Hz to. khz Measured lin. 0 Hz to 0.8kHz -bit ADC -bit ADC -bit ADC Guar. Typ. Guar. Typ. Guar. Typ. Spurious-free DC to. khz DC to 0.8 khz Dynamic Range (d) re full scale Range Guaranteed Guaranteed Typ. Guaranteed input 7.07 mv (input terminated by Spurious < μv 9 d Spurious < μv 0 Ω or less). mv 0 d 70.7 mv. mv 80 d or spurious < μv, whichever spurious is greater 707. mv 90 d 0 d 90 d. V 7.07 V. V DC Offset re full scale Guaranteed Guaranteed Typical < 0 d < 0 d 80 d Harmonic Distortion (all harmonics) DC to. khz DC to 0.8 khz Guaranteed Guaranteed Typ. Guaranteed Typ. All Ranges 7 mv to 7 V Ranges Crosstalk etween any two channels of a module or between any two channels in different modules 80d or <μv, whichever is greater Frequency Range 09 0 7mV 7V Range (.) (.). () () 0 () 0 (88) 00 () 00 (87). (0). (0).7 (). () () (9) (8) 0 (98) (.) (.) () 0 () (9) 00 () 00 (87) 900 (). (0). (0) (.) () () 0 () 0 (98) 00 () () () 0 () 0 () 0 (7) 80 () 00 () 00 (97) (9) (9) () (7) 0 (88) (78) 00 (00) 00 (700) 90 d 9 d 7 d 90 d V Range 70 d 80 d 70 d 80 d Frequency Range 7mV 7V Range V Range 0 khz 00 d 0 khz 0 d 90 d.8 khz 8 d.8 khz 0 d 90 d.8. khz 80 d.8. khz 0 d 90 d. 0. khz 00 d 90 d 0. 0.8 khz 90 d 80 d 8

Specifications Channels, Types 09 and 0 (continued) Channel-to-Channel Match (same input range) Guaranteed Typical Guaranteed Typical Maximum Gain Difference Maximum Phase Difference (within one frame) 0. d from lower frequency limit, f L, to upper limit, f U. 0. (f/f L ) from f L to 0 f L (not valid for DC setting); 0. from 0 f L to 80 Hz (valid for DC setting); 0. + 0. (f/80) from 80 Hz to. khz 0. d from lower frequency limit, f L, to upper limit, f U <0.0d. 0. f/f L from f L to 0 f L (~. at f L and 0. at 0 f L ) (not valid for DC setting); 0. from 0 f L to 00 Hz (valid for DC setting); 0. f /. khz 0. from. khz to 0.8 khz (~. at. khz,. at 0. khz and. at 0.8 khz) Channel-to-Channel Match (any input range) Guaranteed Typical Guaranteed Typical Sound Intensity Phase Match (only for using intensity filter) Common Mode Rejection Maximum Gain Difference Maximum Phase Difference (within one frame) 09 0 0. d from lower frequency limit, f L, to upper limit, f U. 0. (f/f L ) from f L to 0 f L (not valid for DC setting); 0. from 0 f L to 0 Hz (valid for DC setting); 0. + 0. (f/0) from 0 Hz to. khz 0. d from lower frequency limit, f L, to upper limit, f U <0.0d. 0. f/f L from f L to 0 f L (~. at f L and 0. at 0 f L ) (not valid for DC setting); 0. from 0 f L to 00 Hz (valid for DC setting); 0.8 f/. khz 0. from. khz to 0.8 khz (~. at. khz,. at 0. khz and at 0.8 khz) Complies with IEC 0 standard Class and ANSI S. 99 Class using rüel & jær Sound Intensity Probes (0.07 @ 0 Hz) Channels Matched and and Frequency Range Guaranteed Phase Match Guaranteed Phase Match Typical Phase Match 0 Hz 0 Hz ±0.07 ±0.07 ±0.00 0 Hz. khz 0.07 (f/0) 0.07 (f/0) ±0.00. khz. khz ±0.7 ±0.7 ±0.08 7mV 7V Range V Range Guaranteed Guaranteed Typical Typical 0 0 Hz 0 d, 0 d at DC 70 d 80 d 0 d 0 Hz khz 0 d d 0 d 0 d khz. khz 0 d 0 d 0 d Absolute Max. Common Mode Voltage ±V peak without damage ± V peak without damage ±.V peak without clipping ± V peak without clipping If common mode voltage exceeds the max. value, care must be taken to limit the signal ground current in order to prevent damage. Maximum is 00 ma. The instrument will limit the voltage to the stated max. without damage common mode value Anti-aliasing Filter Freq. Range. khz Freq. Range >. khz At least 90 d attenuation of those Filter Type rd order utterworth rd order utterworth frequencies which can cause aliasing 0. d @. khz. khz 0. khz d @ 00 khz 00 khz 00 khz Slope 8 d/octave 8 d/octave Supply for Microphone Preamplifiers ±.0 V, max. 0 ma per channel ±.0 V, max. 0 ma per channel Supply for Microphone Polarization 00 V ± V, or 0 V Supply for DeltaTron/ICP /CCLD ma from V source Supply (on NT connectors). V, max. 00 ma Analog Special Functions Microphone Charge Injection Calibration (depending on software support) Analog Self-test: Functional Check Transducers: Supports IEEE. capable transducers with standardised TEDS Overload Detection Signal overload CCLD overload: Detection of cable break or short-circuit + detection of CCLD transducer working point fault Microphone preamplifier overload: Detection of microphone preamplifier current consumption too high or too low Common mode voltage overload (Type 0 only) 9

Specifications Channels, Standard -bit and Connector Coupling Signal Ground Coupling DA Conversion DC Offset Voltage Range Standard -bit 77/7-A/9/9-A NC DC Floating or grounded to chassis -bit 78/8-A/0/0-A mv @ C and 0 mv @ full temperature range ( 0 d re max. output) μv peak 7 V peak Impedance 0 Ω Frequency Range 0 Hz. khz Frequency Response re khz ±0.d, mhz to.khz Frequency Accuracy 0.00% Waveform 77, 77 A 79, 79 A 78, 78 A 70, 70 A Software determined Sine only Arbitrary waveforms up to Msamples Amplitude Linearity @ khz Typical 0 to 0 d below full scale ±0. d 0 to 00 d below full scale ±0. d Noise μv rms (nv/ Hz) Harmonic and Spurious Distortion Products Sine only Software determined Arbitrary waveforms up to Msamples Guaranteed Typical Guaranteed Typical <0 (<88) 0 () <0 (<88) 0 () 0. khz < 80 d re full range output or μv, whichever is greater < 80 d re full range output or μv, whichever is greater Absolute Amplitude Precision Guaranteed Guaranteed @ C, khz, V rms ±0. d ±0. d Crosstalk Guaranteed Typical Guaranteed Typical between any generator output and any 0 khz 00 d d 00 d d channel on any module khz. khz 8 d 0 d 8 d 0 d Common Mode Rejection Guaranteed Guaranteed Hz khz 0 d 0 d Max. Common Mode Voltage V peak, DC 80 MHz If common mode voltage exceeds the max. value, care must be taken to limit the signal ground current in order to prevent damage. Maximum is 00 ma. The instrument will limit the voltage to the stated max. without damage common mode value Reconstruction Filter Type Sixth order utterworth Attenuation of mirror frequencies >80 d Specifications Channels, Types 09 and 0 09 0 Connector NC NC Coupling DC Signal Ground Coupling Floating or grounded to chassis DA Conversion -bit DC Offset Level DC Offset 7mV peak 70 mv peak 00 μv 70 mv peak 700 mv peak 00 μv 700 mv peak 7 V peak mv Voltage Range 7 μv peak 7 V peak μv peak 7 V peak Impedance 0 Ω Frequency Range 0 Hz. khz 0 Hz 0. khz Frequency Response re khz ±0.d, mhz to.khz ±0. d, mhz. khz +0./ 0. d, mhz 0. khz Typical: ±0.0 d Frequency Accuracy 0.00% Waveform Software determined. Arbitrary waveforms up to Msamples 0

Specifications Channels, Types 09 and 0 (continued) Amplitude Linearity @ khz Guaranteed Guaranteed Typical 0 to 0 d below full scale ±0. d ±0. d ±0.0 d 0 to 00 d below full scale ±0. d ±0. d ±0. d 00 to 0 d below full scale ±0. d ±0. d ±0. d 0 to 0 d below full scale ±.0 d ±.0 d ±0. d Noise (0 Hz. khz) (0 Hz. khz) (0 Hz 0.8 khz) μv rms (nv/ Hz) Level Guaranteed Guaranteed Typ. Guaranteed Typ. 7mV peak 70 mv peak (9). 9 (9) () () (0) Harmonic and Spurious Distortion Products 70 mv peak 700 mv peak 0 () 700 mv peak 7 V peak 00 (0) 0. khz < 80 d re full range output or μv, whichever is greater 0 () 0 () () 0 (88) 0 () 00 () 0 () 00 () < 80 d re full range output or μv, whichever is greater, at 0 kω load. 0. khz <70 d re full range output or μv, whichever is greater Typical @ khz 00 d re full range output Absolute Amplitude Precision Guaranteed Guaranteed Typical @ C, khz, V rms ±0.0 d ±0.0 d ±0.00 d @ khz, mv 7V peak ±0.d ±0.d ±0.0d Crosstalk Guaranteed Guaranteed Typical between generator output and any 0 khz 00 d channel on any module khz.khz 8d 0 0. khz 09 0 0 or better than 90 d re max. input voltage whichever is greater (worse) 0 d Common Mode Rejection Guaranteed Guaranteed Typical Hz khz 0 d 0 d 0 d khz. khz 0 d d 0 d. khz 0. khz 0 d 0 d Max. Common Mode Voltage V peak, DC MHz 0 V peak, MHz 80 MHz V peak, DC 80 MHz Reconstruction Filter Type Seventh order utterworth Sixth order utterworth Attenuation of mirror frequencies >80 d Monitor Connectors NC Level. V p for full scale input in any range, ±0.0d Impedance 0 Ω Harmonic Distortion 0. khz: < 90 d. khz 0. khz: < 80 d DC Offset (Max.) Range DC Offset (Max.) 7.07 mv 0 mv.mv 0mV None 70.7mV mv. mv mv 707. mv. mv. V 0. mv 7.07 V 0. mv. V 0. mv Signal From last amplifier before anti-aliasing filter, but after analog high-pass filters

Specifications Controller Modules Types 7, 77, 77-A, 78, 78-A, 79, 79-A, 70, 70-A and -channel PULSE Data Acquisition Units 0--00, -00, -00, -00, -0, -0, -0, -0 LAN Interface CONNECTOR RJ (0baseT/00baseTX) connector complying with IEEE 80. 00baseX PROTOCOL TCP/IP ACQUISITION PERFORMANCE Data Transfer Rate (No. of Channels andwidth) from Frontend via LAN Interface, per frame: - and -bit modules/channels can be mixed 0.8 khz (-bit data transfer), 9. khz (-bit data transfer). This corresponds approximately to: Upper Frequency (khz) 00 Mit LAN can comfortably support a data transfer rate of 00 to 00 khz, so for large systems with multiple frames, Gigabit LAN may be required for both PC card and Ethernet switch Data Transfer Rate via WLAN Up to 00 khz (-bit data transfer) for IEEE 80.g, Mit connection, dependent on local transmission conditions Multiframe Control -bit (0.8 khz) No. of Channels a -bit (9. khz). 8 7 b.8. 7 9 c a. If one or more Type 00, 09 or 0 is included in the system, performance is reduced to 09. khz, for example, channels to. khz b. If Type 7 is included, channels to. khz (. khz) c. Theoretically, 08 channels, but limited by max. number of channels in one frame This must only be connected to other NC Multiframe Control Sockets in Type 7 or 77 Aux AUXILIARY I/O Number of Channels: a Connector: High density 0-pole D-sub Sampling Rate: 0 samples per second (no internal anti-aliasing filters) Connections: Single-ended Voltage Ranges: Six input ranges from 0. V to. V in 0 d steps Protection: 0 V Impedance: MΩ < 00 pf Precision: Range Precision. V ±0.% of reading ±0 mv offset 0 V ±0.% of reading ±7 mv offset. V ±0.% of reading ±7 mv offset V ±0.% of reading ± mv offset mv ±0.% of reading ± mv offset 00 mv ±0.% of reading ± mv offset COMPATIILITY WITH EXISTING TYPE 7 LAN MODULES Type 7 00 Mit LAN modules, hardware version.0 and greater, are compatible and calibrated Type 7, hardware version.0 and serial number 0 of version.0, are compatible but need recalibration Type 7, hardware version.0, will not function properly without a simple hardware modification (less than units affected). There is a potential for damage if these modules are used for Auxiliary Logging without the modification RS Interface RS OUTPUT Fulfils EIA (electrical) and EIA 7 (mechanical) OUTPUT SUPPLY V, max. 0 ma a. input channels ( currently supported in software) plus output channels which allow simple on/off control

Ordering Information PULSE Systems 0-, 0-C, 0-D, 0-E 0-0-C 0-D 0-E Type 0-: Compact PULSE Also includes the following accessories: ZG-09: Mains Supply/attery Charger AN-xxxx: Mains Cable for ZG-09 (xxxx: country dependent) AO-0: Power Supply Cable for in-car use Consists of: Type 87: Portable Data Acquisition Unit Also includes the following accessories: ZG-09: Mains Supply/attery Charger AN-xxxx: Mains Cable for ZG-09 (xxxx: country dependent) AO-0: Power Supply Cable for in-car use DD-0: Protection Cover DH-0: Shoulder Strap System Options Any PULSE software see the System Data for PULSE software (U 09) -channel PULSE Data Acquisition Units Standard Type 0--00: LEMO Type 0--00: NC Type 0--00: LEMO, Generator Type 0--00: NC, Generator Type 0--0: LEMO Type 0--0: NC Type 0--0: LEMO, Generator Type 0--0: NC, Generator Optional Accessories UA-89: Handle for Type 0- UA-90: attery Charger and Holder ( ) Q-008: attery, NiMH DR AQ-0: Power Cable for V devices, max. A Types 0--00, -00, -0, -0 AO-0090: 7-pin LEMO to NC male (. m) for floating ground AO-009: 7-pin LEMO to NC female (. m) for floating ground JJ-008: NC Adaptor, female to female Services 0--CAF: Portable PULSE Accredited Calibration 0--CAI: Portable PULSE Accredited Initial Calibration 0--CTF: Conformance test of 0- with certificate and measured values 0--EW: Extended Warranty for 0-, one year extension Consists of: -000: Enclosure incl. Fan Unit Type 8: Power Supply Also includes the following accessories: ZG-00: Mains Supply AN-xxxx: Mains Cable for ZG-00 (xxxx: country dependent) AQ-07: DC Supply Cable (attery to Type 8) DH-0: Shoulder Strap One Controller Module from: Standard Type 7: Controller Module Type 77: /-ch. / Controller Module (LEMO) Type 77-A: /-ch. / Controller Module (NC) Type 79: /-ch. / Controller Module with Generator (LEMO) Type 79-A: /-ch. / Controller Module with Generator (NC) Type 78: /-ch. / Controller Module (LEMO) Type 78-A: /-ch. / Controller Module (NC) Type 70: /-ch. / Controller Module with Generator (LEMO) Type 70-A: /-ch. / Controller Module with Generator (NC) One / Module from: Standard Type 08: -ch. Module Type 08-: -ch. Module Type 09: -ch. Module Type 09-: -ch. Module Type 09: /-ch. / Module Type 0: /-ch. / Module UA-: lank Module Type 0: -ch. Charge & CCLD Module Type 0: -ch. Module Type 0-: -ch. Module Type 00: -ch. Module Type 00-: -ch. Module UA-: lank Module UA-90: attery Charger and Holder ( ) Q-008: attery, NiMH DR UA-: Notebook Mounting it UA-7: 9 Rack Mounting it for Type 87 AQ-0: Power Cable for V devices, max. A E-09: Suitcase for Type 0-C and PC 0-C-CAF: Portable PULSE Accredited Calibration 0-C-CAI: Portable PULSE Accredited Initial Calibration 0-C-CTF: Conformance test of 0-C with certificate and measured values 0-C-EW: Extended Warranty for 0-C, one year extension Up to Five / Modules from: Standard Type 08: -ch. Module Type 08-: -ch. Module Type 09: -ch. Module Type 09-: -ch. Module Type 09: /-ch. / Module Type 0: /-ch. / Module UA-: lank Module Type 0: -ch. Charge & CCLD Module Type 0: -ch. Module Type 0-: -ch. Module Type 00: -ch. Module Type 00-: -ch. Module UA-: lank Module AQ-0: Power Cable for V devices, max. A AQ-0: Power Supply Cable with car service plug for 0-D UA-: Notebook Mounting it 0-D-CAF: Portable PULSE Accredited Calibration 0-D-CAI: Portable PULSE Accredited Initial Calibration 0-D-CTF: Conformance test of 0-D with certificate and measured values 0-D-EW: Extended Warranty for 0-D, one year extension Consists of: WU-0: 9 Rack Mounting it Type 8: Power Supply Also includes the following accessories: ZG-0: Mains Supply AN-xxxx: Mains Cable for ZG-0 (xxxx: country dependent) Requires: UH-07: 9 Fan Unit (Height: standard rack-mounting unit) Up to Eight / Modules from: Standard Type 08: -ch. Module Type 08-: -ch. Module Type 09: -ch. Module Type 09-: -ch. Module Type 09: /-ch. / Module Type 0: /-ch. / Module UA-: lank Module Type 0: -ch. Charge & CCLD Module Type 0: -ch. Module Type 0-: -ch. Module Type 00: -ch. Module Type 00-: -ch. Module UA-: lank Module Q-0: 9 Rack Enclosure EA-00: Air Guide UH-07: 9 Fan Unit (Height: standard rack-mounting unit) 0-E-CAF: Portable PULSE Accredited Calibration 0-E-CAI: Portable PULSE Accredited Initial Calibration 0-E-CTF: Conformance test of 0-E with certificate and measured values 0-E-EW: Extended warranty for 0-E, one year extension 0-SI: Installation and Configuration (at rüel & jær) 0-HL: 0 Software and Hardware Support. One year of Helpline Support Accredited calibration (CAF), Accredited Initial Calibration (CAI) and Conformance Test (CTF) are also available for individual input/output modules by appending the letters to the type number, for example, 09-CTF. For further information, please contact your local rüel & jær representative

ACCESSORIES FOR MODULES 7, 77, 78, 79, 70, 77-A, 78-A, 79-A, 70-A 0, 08, 09, 00, 0, 08-*, 09-*, 00-*, 0-*, 09, 0 ACCESSORIES INCLUDED AO-9: LAN Interface Cable crossover with RJ ( m) AO-: RS Cable for PULSE Controller Module JJ-0: NC T-connector UA-7: LAN Cable Relief Type 0: JP-0: TNC to 0 UNF Plug OPTIONAL ACCESSORIES Types 77, 78, 79, 70 only AO-0090: 7-pin LEMO to NC (. m) for Floating GND AO-009: 7-pin LEMO to NC female (. m) for floating gnd. JJ-008: NC Adaptor, female to female For Auxiliary Parameter Logging AO-7: 7-pin D-sub to Aux I/O AO-09: NC Female to 7-pin D-sub AO-09: 7-pin D-sub converter cable for DATAQ DI-7 AO-88: Aux Cable, NC + NC,.0 m (. ft) max.+70ºc (8ºF) Type 7: Charge to CCLD Amplifier JP-0: NC to 0 UNF Plug Adaptor AO-0: -pin Microtech to NC Cable NC to multiplug for triaxial transducers W-97: 0 d Attenuator Types 08-, 09-, 00-, 0- only AO-0: 7-pole D-sub to Microdot for accelerometers AO-0: 7-pole D-sub to plugs for triaxial accelerometers AO-00: 7-pole D-sub to 7-pin LEMO (allows CIC and polarization voltage with Type 08-) AO-00: 7-pole D-sub to NC Socket W-8: 0/0 d Attenuator Adaptor for D-Sub connector *Note: The following adaptors should not be used with polarization voltage enabled on the -versions: AO-0: 7-pole D-sub to -pin LEMO AO-0: 7-pole D-sub to STSF/eamforming Array WL-: 7-pole D-sub to 7-pin LEMO WL-7: 7-pole D-sub to NC Socket WL-9: 7-pole D-sub to NC Plug SOFTWARE Please refer to the System Data for PULSE software (U 09) NOTEOO PCS a 700-D-xxy Dell Standard Notebook 70-D-xxy Dell High-end Notebook 70-A-xx Crete ROCY II Plus EX Ruggedized Notebook xx specifies country: DE, D, ES, FR, G, IT, RU, SE, US y specifies inclusion of Microsoft Office Pro: not included; included TOWER PCS a 70-D xxy Dell Optiplex GX80 Standard Desktop 70--xxy Dell Precision 90 High-end Tower PC xx specifies country: DE, D, ES, FR, G, IT, RU, SE, US y specifies inclusion of Microsoft Office Pro: not included; included a. PCs are constantly updated. Contact your local dealer for latest information. PC ACCESSORIES UL-000 Vehicle Adaptor ( V) for Rocky II+ UL-0 Dell 7 Flat Panel Display TFT UL-07 Dell 9 Flat Panel Display TFT PC HARDWARE AO-0 LAN Interface Cable with RJ UL-07 Netgear 8-port, 00 Mit Switch (0 V only) UL-09 Netgear -port, Git Switch (0 V only) A wide range of rüel & jær Accelerometers, Microphones, Preamplifiers and Sound Intensity Probes is available for use with a Type 0 system. The system supports IEEE. capable transducers with standardised TEDS See also the PULSE Catalogue (F 009) for information on standard system configurations TRADEMARS Microsoft, Windows and Windows Vista are registered trademarks of Microsoft Corporation in the United States and/or other countries ICP is a registered trademark of PC Group MATLA is a registered trademark of The MathWorks, Inc. SONY is a registered trademark of Sony Corporation Intel, Intel Inusiness and Pentium are registered trademarks of Intel Corporation or its subsidiaries in the United States and/or other countries HP and Omnibook are registered trademarks of Hewlett-Packard Company Dell and Latitude are registered trademarks of Dell Computer Corporation Neutrik is a registered trademark of the Neutrik Group worldwide Netgear is a registered trademark of NetGear, Inc. rüel & jær reserves the right to change specifications and accessories without notice ËU-08---AÎ U 08 008- Rosendahls ogtrykkeri HEADQUARTERS: D-80 Nærum Denmark Telephone: + 80 000 Fax: + 80 0 www.bksv.com info@bksv.com Australia (+) 9889-8888 Austria (+) 8 7 00 razil (+) 88-8 Canada (+) 9-8 China (+8) 0 80 990 Czech Republic (+0) 70 00 Finland (+8) 9-7 90 France (+) 9 90 7 00 Germany (+9) 7 87 0 Hong ong (+8) 8 78 Hungary (+) 8 0 Ireland (+) 807 08 Italy (+9) 07 80 Japan (+8) 7 Republic of orea (+8) 7 00 Netherlands (+)8 990 Norway (+7) 77 Poland (+8) 8 7 Portugal (+) 9 00 Singapore (+) 77 Slovak Republic (+) 070 Spain (+) 9 9 080 Sweden (+) Switzerland (+) 8807 0 Taiwan (+88) 0 7 United ingdom (+) 879000 USA (+) 800 00 Local representatives and service organisations worldwide