Model 725Multi-trigger Digital Delay Generator
Researchers and system integrators, needing controls and diagnostics for their experiments and systems, are regularly forced to build from scratch or to piece together several boxes. Many hours are spent learning the idiosyncrasies of each box and how to properly couple boxes to each other. Each box has its own programming protocol. Valuable time is lost to tracking connections, taming noisy signals, adjusting timing on multiple boxes, and other aggravating chores. Now, one box will eliminate such issues.
The Model 725 coordinates, integrates, and synchronizes complicated setups, simply, reliably, and affordably. Featuring eight timing channels with programmable logic, unique timing modes, and 10 ns resolution, the Model 725 outperforms a rack full of instruments, specialized boxes, filters, and cables. Inputs can be logic signals, switches, transducers, interlocks, computer commands, and gauges. The Model 725 can be programmed and controlled easily via LabVIEW or Windows. It contains sophisticated logic, gating, and filtering. It has eight inputs, eight outputs and eight separate timers.
The Model 725 logic is engineered for fast data throughput (11 ns) and minimal throughput spread (~1 ns). It would be difficult to match this performance with external cabling and hard-wired logic.
Timing Diagram for Model 725 shows Independant Timers for Each Channel, Interrelated
OVERVIEW
Quick Specs
Applications
Channels: 8 Independent Channels / Multiple Trigger Inputs
Resolution: 10 ns
Accuracy: 0.01%
Jitter: 50 ps
Voltage: TTL
Memory: 12 Memory Storage Slots
Ballistics
Multi-trigger Inputs
Explosive Testing
Airbag (Squibb) Testing
INNOVATIVE SOFTWARE, UNIQUE CONTROLLER
The Model 725 hardware controller can operate in stand-alone mode or via computer control. The computer control system uses its own user-friendly software, timerPRO or LabVIEW,™ both tested and proven in many experiments. timerPRO makes it easy to create sophisticated control schemes from your PC. With the Model 725 linked to your computer, you will quickly program, refine, and expand experiments. Using stand-alone mode, you can store and recall up to 64 complete settings, then trigger and monitor an experiment from the Model 725’s front panel. You will have the flexibility to design experiments offline, then to embed the controller in your test environment for “set and forget” operation. The firmware in the Model 725 is field upgradeable, allowing access to new timing modes and capabilities as they become available. timerPRO’s opening window summarizes the settings and lets you configure them.
COMPLEX TIMING SEQUENCES WITH DIGITAL DELAYS
Precision Digital Delay Generators, such as the BNC 500 series pulse/delay generators uses a single or dual trigger with a common clock to synchronize multiple events. It cannot be re-triggered until the completion of the longest timed event. The Model 725 addresses a matrix of timing issues with eight triggers, eight timers and eight outputs. The triggering of each of these timers is independent of the other timers. The triggers can be logical combinations of inputs and outputs – AND’s, OR’s, XOR’s and Negated. Also any number of timers can be triggered together to function as a traditional multi-channel digital delay generator with sub-s timing.
SOME APPLICATIONS EXAMPLES
Fluid dynamics:
In a two-pulse experiment, two lasers were fired in rapid succession to illuminate and capture successive snapshots of a high speed fluid flow. The Model 725 handled all aspects of the experiment, from warming up the lasers to precisely timing the nanosecond- scale pulses. Using the Model 725’s onboard logic and software interface, the experimenters implemented special “alignment” and “calibration” modes for preparing the experiment and “laser ready” interlocks for safety.
High speed gas flow:
A combustion-driven shock tube was used to study high speed gas flows. The Model 725 was the heart of the experiment, taking charge of ignition, pressure sensing, detonation, laser timing, data acquisition and more complex, interrelated timing sequences were orchestrated on the PC using the virtual front panel software.
The experiment inputs: Control panel switches, pressure transducers, accelerometers, ionization gauges, safety interlock, computer commands. The experiment outputs: Shutter, Camera, Laser Flashlamp, Laser Q-Switch, Data Acquisition, Oscilloscope, Diaphragm Burster, Igniter.
SPECIFICATIONS
TIMING PROCESSOR
PROPERTY MIN MAX TYP NOTES Trigger-pulse Delay
50 ns
1370s
-
Delays over 20 s have 640 ns timing resolution
Trigger-pulse Duration
7.7 µs
1370 s
-
Delay Resolution
10 ns
10 ns
-
Duration Resolution
10 ns
10 ns
-
Delay Jitter from Synchronous Source
-
10 ns
-
Delay Jitter from Internal Source
-
200 ps
50ps
Absolute Timing Accuracy
-
0.01%
0.001%
0 to 50°C
Internal Timing
1.5625 MHz
100 MHz
-
External Timing
1 MHz
100 MHz
-
External Trigger Pulse Duration
50 ns
-
-
LOGIC PROCESSOR
PROPERTY MIN MAX TYP Inputs
-
-
8 external 7 internal
Outputs
-
-
8 internal (to timing processors)
Throughput Delay
-
11 ns
10 ns
PHYSICAL DIMENSIONS
PROPERT MIN NOTES Width
208 mm (8.2")
black enamel-coated anti RFI steel enclusure electrostatically shield
Length
242 mm (9.5")
Height
60 mm (2.4")
ELECTRICAL CHARACTERISTICS
PROPERTY MIN MAX TYP NOTES Input Impedance
-
-
4.7kΩ
DC
Input Capacitance
-
-
20 pF
Output Voltage Levels
TTL-compatible
Logical High
3.5 V
4.9 V
4.5 V
1kΩload
Logical Low
0.0 V
0.2 V
0.1 V
Output Source/Current
Logical High
32 mA
-
50 mA
Short-circuit current
Logical Low
64 mA
-
80 mA
Short-circuit current
Output Rise Time
-
-
10 nS
1kΩload
Input/Output Voltage Protection
-30 V
+30 V
-
PROGRAMMING REQUIREMENTS
Standard RS-232 interface, (e.g., external IBM PC-compatible COM port)
38400 baud, 1 stop bit, no parity, RTS/CTS (hardware) flow control
Unit is supplied with cable for 9-pin D connector
SOFTWARE REQUIREMENTS
PC-compatible computer
Trigger software for Windows 95, NT, Me, 2000, XP or later, included
LabView drivers available
Other enviroments: Call for details
POWER REQUIREMENTS
Property
Min
Max
Notes
Voltage
-
100-250 VAC 50-60 HZ
External male AC connector with fuse, internal cooling fan internal fuse DC supply
Current
0.5 A
Specifications Certification
CE