System 3 Manual TDTSys3
User Manual:
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- Part 1 RZ Z-Series Processors
- RZ2 BioAmp Processor
- RZ5 BioAmp Processor
- RZ5D BioAmp Processor
- RZ6 Multi I/O Processor
- Overview
- RZ6 Multi-Bus Architecture
- RZ6 Features
- Onboard Analog I/O and Optional Amplifier Input
- Digital I/O
- DSP Status Displays
- Specialized DSP/Optical Interface Boards (Optional)
- RZ6 Multi I/O Technical Specifications
- RZ-UDP RZ Communications Interface
- Overview
- Installation
- Hardware Requirements
- Setting-Up Your Hardware
- Status LEDs
- Network Structure
- The DHCP Protocol
- The UDP Protocol
- Process Layers
- UDP Configuration
- Serial Configuration
- The UDP Packet Structure
- UDP Circuit Design
- Serial Circuit Design
- UDP Test Application
- Writing a Custom Software Application
- UDP Interface Performance
- Part 2 Data Streamers
- RS4 Data Streamer
- Overview
- Hardware Requirements
- Setting-Up Your Hardware
- Configuring the RS4
- Moving Stored Data to a Data Tank
- RS4 Features
- Troubleshooting
- Device Will Not Power Up
- Can’t Access the RS4 Storage Array
- RS4 Interface Becomes Slow or Unresponsive
- RS4 Is Not Correctly Naming Data
- When connected to an active network, TDT’s OpenEx software sends information to the RS4 via a broadcast UDP packet allowing it to properly name the streaming data sent to the RS4. If the RS4 is powered on before connecting the necessary network cables it may default to the basic naming format:
- Port Tab Errors
- Status Tab Errors
- Config Tab Errors
- Technical Specifications
- PO8e Interface for the RZ
- RS4 Data Streamer
- Part 3 RX Processors
- RX5 Pentusa Base Station
- RX6 Piranha Multifunction Processor
- Overview
- RX Architecture
- RX6 Features
- DSP Status Displays
- Fiber Optic Port - Optional
- Amp Status and Clip Warning Lights
- Bits Lights
- The RX6’s eight Bits lights are user configurable. By default the Bits lights indicate the logic level (light when high) for the eight bit-addressable digital I/O lines. The Bits lights can also be configured to provide information about amplifier status or act as logic level lights for any of the other two bytes of digital I/O.
- Using the Bits Lights to Display Amplifier Status
- Analog Input/Output
- Digital I/O
- XLink
- Realizable Sampling Rates for the RX6
- Piranha Technical Specifications
- RX7 Stimulator Base Station
- RX8 Multi I/O
- Part 4 RP Processors
- Part 5 RM Mobile Processors
- Part 6 Preamplifiers
- PZ2 Preamplifier
- PZ3 Low Impedance Amplifier
- PZ-BAT External Battery Pack for PZ Amplifiers
- PZ4 Digital Headstage Manifold
- Medusa Preamplifiers
- Adjustable Gain Preamp
- TB32 32-Channel Digitizer
- Headstage Connection Guide
- Part 7 Stimulus Isolator
- MS4/MS16 Stimulus Isolator
- Overview
- Hardware Set-up
- Stimulus Isolator Features
- Software Control
- Working with the MS16 MilliAmp Mode
- Stimulus Isolator Technical Specifications
- Battery Reference
- MS4/MS16 Anomalies
- IZ2 Stimulator
- MS4/MS16 Stimulus Isolator
- Part 8 Video Processors
- Part 9 MicroElectrode Array Interface
- Part 10 High Impedance Headstages
- ZIF-Clip® Headstages
- RA16AC - 16 Channel Acute Headstage
- NN64AC - 64 Channel Acute Headstage
- NN32AC - 32 Channel Acute Headstage
- RA16CH/LP16CH - 16 Channel Chronic Headstage
- RA4AC - Four Channel Headstage
- SH16 - 16 Channel Switchable Acute Headstage
- SH16-Z - 16 Channel Switchable Acute Headstage
- Part 11 Low Impedance Headstages
- Part 12 Adapters and Connectors
- Probe Adapters
- AC-CH Acute Headstage to Chronic Probe (16 Channels)
- CH-AC Chronic Headstage to Acute Probe (16 Channels)
- ACx2-NN 16 Channel Acute Headstage to 32 Channel Acute Probe
- CHx2-NN 16 Channel Chronic Headstage to 32 Channel Acute Probe
- nanoZ-OMN/DIP nanoZ™ to Omnetics and DIP Based Probes
- nanoZ-ZCA32/ZCA64 nanoZ™ to ZIF-Clip® Probes
- ZIF-Clip® Headstage Adapters
- ZCA-DIP16 ZIF-Clip® Headstage to Acute Probe (16 Channels)
- ZCA-OMN16 ZIF-Clip® Headstage to Chronic Probe (16 Channels)
- ZCA-OMN32 ZIF-Clip® Headstage to Chronic Probe (32 Channels)
- ZCA-NN32 ZIF-Clip® Headstage to 32 Channel Acute Probe)
- ZCA-NN64 ZIF-Clip® Headstage to 64 Channel Acute Probe)
- ZCA-GM60 ZIF-Clip® Headstage to 60-Channel Chronic Probe
- ZCA-CK96A ZIF-Clip® Headstage to 96-Channel Chronic Probe
- ZCA-ICS96 ZIF-Clip® Headstage to 96-Channel Chronic Probe
- ZCA-UP16 16-Channel Plextrode® U-Probe to ZIF-Clip® headstage
- ZCA-UP24 24-Channel Plextrode® U-Probe to ZIF-Clip® headstage
- Preamplifier Adapters
- Connectors
- Splitters
- Probe Adapters
- Part 13 Microwire Arrays
- Part 14 Attenuator
- PA5 Programmable Attenuator
- Overview
- Features
- PA5 Manual Operation
- Operation in Atten Mode
- Operation in UserAtt Mode
- About UserAtten Mode Parameters
- PA5 Manual Operation Menus
- Setting Base Attenuation
- Example 1: Adding Speaker Calibration Attenuation
- Example 2: Multiple Signals of Varying Levels
- Setting a Reference Value
- Example 1: Displaying Signal Level in SPL
- Example 2: Combining Reference and Base Attenuation
- Using Preset Configurations
- Saving Preset Configurations
- Loading Preset Configurations
- PA5 Display Icons
- PA5 Technical Specifications
- PA5 Programmable Attenuator
- Part 15 Commutators
- Part 16 Transducers and Amplifiers
- MF1 Multi-Field Magnetic Speakers
- CF1/FF1 Magnetic Speakers
- EC1/ES1 Electrostatic Speaker
- ED1 Electrostatic Speaker Driver
- FLYSYS FlashLamp System
- HB7 Headphone Buffer
- MA3: Microphone Amplifier
- MS2 Monitor Speaker
- SA1 Stereo Amplifier
- SA8 Eight Channel Power Amplifier
- Part 17 Subject Interfaces
- BBOX Button Box
- RBOX Response Box
- HTI3 Head Tracker Interface
- Part 18 Signal Handling
- Part 19 PC Interfaces
- Part 20 The zBus and Power Supply
- Part 21 System 3 Utilities