With compliments
Helmut Singer Elektronik
www.helmut-singer.de info@helmut-singer.de
fon +49 241 155 315
fax +49 241 152 066
Feldchen 16-24 D-52070 Aachen Germany
We offer the widest range
CompuGen 1100
of high-speed digitizers
High-speed arbitrary waveform generator card
and instrumentation cards
available on the market
today. Our powerful PC-based
instrumentation products allow
you to create reliable, flexible
and high-performance solutions
quickly and easily.
Reduce development time
and costs for testing complex
applications such as radar,
Arbitrary waveform generator and function generator card capable of
providing aperiodic analog waveforms.
wireless communications,
spectroscopy, etc. by using our
Windows-based application
FEATURES
•
12 bit resolution
•
80 million conversions per second
•
Up to 16 MegaSamples of on-board memory
•
12.5 ns Time Resolution
•
Up to 8 Cards in a Master/Slave System for up to 8 Simultaneous
output channels
Wireless communications
•
Free CGWin software for creating, editing and generating waveforms
Manufacturing test
•
Free Software Development Kits for C/C++, MATLAB and LabVIEW
software or our SDKs.
APPLICATIONS
Stimulus-response test systems
www.gage-applied.com
With compliments
Helmut Singer Elektronik
www.helmut-singer.de info@helmut-singer.de
fon +49 241 155 315
fax +49 241 152 066
Feldchen 16-24 D-52070 Aachen Germany
CompuGen 1100 Simplified Block Diagram
COMPUGEN 1100
Traditional waveform generators provide simple, periodic waveforms
appropriate for audio and RF applications. The complex analog and
digital circuits of today require the stimuli to be customized.
CompuGen 1100 enables the user to create a large number of varying
analog and digital outputs and store them for future reference.
CREATE AND EDIT WAVEFORMS
Arbitrary waveforms are generated by creating a digital representation
of the waveform in the memory on-board CompuGen 1100. This digital
pattern is then converted into an analog signal using a high-speed
Digital-to-Analog Converter (DAC) and amplifiers. The output gain and
filtering can be set by software.
Arbitrary waveforms can be specified in several ways:
• Using equations
• Selecting from previously stored waveforms on disk
• Selecting from a library of standard waveforms
• Transferring data from CompuScope cards for replaying
Memory looping is completely seamless. The pattern advances from
the last sample back to the first in exactly one clock cycle. Seamless
memory looping makes CompuGen 1100 the most powerful arbitrary
waveform generator on the market.
ON-BOARD FILTER
CompuGen 1100 has on-board selectable low pass filters for smoothing
the output waveform by reducing the quantization error caused by the
Digital to Analog Converter.
These software-controlled filters may be switched off when fast rising
signals have to be generated.
FAST AMPLIFIER
The amplifier used on the CompuGen 1100 has a very high output slew
rate, 50 7 output impedance and output short protection up to ±50 Volts.
UP TO 80 MILLION CONVERSIONS PER SECOND
The CompuGen 1100 generates analog output at a maximum D/A
conversion rate of 80 million samples per second (MS/s) with 12-bit
vertical resolution.
MEMORY DEPTH
One of the most powerful features of CG1100 is the huge on-board
memory buffer it has. With up to 16 Megasamples of on-board memory,
CompuGen 1100 is one of the most powerful D/A cards in the world.
AMPLITUDE
CRYSTAL-BASED STABILITY
12-BIT RESOLUTION
The CompuGen 1100 waveform synthesis is controlled by a stable
80 MHz crystal oscillator. This provides temperature stability, long-term
stability and precision far above those available in standard waveform
generators.
The CompuGen 1100 provides 12 bit vertical resolution (4096 levels) on
the output signal.
MEMORY LOOPING
Memory looping allows the memory on-board CompuGen 1100 to be
optimized. For example, a 1000 point pattern can be repeated 100 times,
thereby using up only 1000 words of on-board memory, instead of taking
up 100,000 words of memory.
The CompuGen provides a maximum output of ±10 Volts into a 1 k7
load and a ±5 Volt output into a 50 7 load.
TRIGGERING
Internal and external trigger capability is provided for burst mode
operation. An arbitrary waveform is produced as a single burst up on
receiving a trigger either through software or by comparing the external
trigger input with the level and slope set through software.
The trigger can also initiate periodic signal bursts timed through software.
www.gage-applied.com
With compliments
Helmut Singer Elektronik
www.helmut-singer.de info@helmut-singer.de
fon +49 241 155 315
fax +49 241 152 066
Feldchen 16-24 D-52070 Aachen Germany
RETRIGGERABLE MODE
SYSTEM REQUIREMENTS
Another triggering mode available on the CompuGen 1100 outputs the
programmed signal every time a trigger occurs. Once the generation
of the output signal has
ended, the trigger is
re-armed in hardware.
No software interaction is
required.
ISA bus compatible PC with at least one free ISA slot; 128 MB RAM,
50 MB free space on hard drive; SVGA video.
PROGRAMMABILITY
+5 Volts
+12 Volts
-12 Volts
-5 Volts
The CompuGen 1100 is fully programmable for customer applications.
Software Development Kits (SDKs) for C/C++, MATLAB and LabVIEW are
provided with your CompuGen 1100.
MULTI-CARD SYSTEMS
A Multi-Card system, comprising one Master and up to 7 Slave boards,
can be ordered if more than one output channel is needed.
All signals necessary for synchronization of multiple CompuGen boards
are passed from the Master to the Slave CompuGen boards using a
Master/Slave Interconnect. These signals include the Conversion Clock,
Trigger and other initialization signals.
Single-slot full-length ISA card
POWER REQUIREMENTS (MAX)
15 Watts
9 Watts
1 Watts
0.5 Watts
FEATURES
Pattern Output Modes:
Record Length:
Record Resolution:
Trigger Modes:
Single-shot, continuous looping
4 points minimum
2 points
Single, timed, or retriggerable
DIGITAL TO ANALOG CONVERSION
THREE-PHASE SIMULATION
Multiple CompuGen 1100 cards can be used to simulate three-phase
voltage and current waveforms with control over the phase of each output.
INTEGRATION WITH COMPUSCOPE CARDS
CompuGen cards operate under software that can load and store GageScope
SIG files. These are data files captured by CompuScope cards.
As such, the first level of integration between the CompuGen and
CompuScope cards can be
achieved using signal files.
It is possible to capture a
signal using a CompuScope
and then regenerate it with
a CompuGen 1100.
Yet another level of
integration can be achieved
by using the two cards
in the same system, with
the application software
controlling both cards using
software drivers.
SIZE
Output:
Amplitude:
Resolution:
Accuracy:
Clock Frequency:
Conversion Rates:
Output Frequency:
Buffer Depth:
Full-scale Output Range:
Output Impedance:
Filter:
Output Protection:
Connector:
1 per card
20 Vp-p into 1 k7
10 Vp-p into 50 7
12 bits
±2% excluding offset
Maximum 80 MHz
Minimum 1 Hz
80 MHz, 40 MHz, 20 MHz, 10 MHz, 5 MHz,
2 MHz, 1 MHz, 500 kHz, 200 kHz, 100 kHz,
50 kHz, 20 kHz, 10 kHz, 5 kHz, 2 kHz, 1 kHz
10 MHz to 61 μHz
512K, 1M, 2M, 4M, 8M, or 16M samples
±100 mV, ±200 mV, ±500 mV,
±1 V, ±2 V, ±5 V
Voltages are specified with 50 7 termination.
With no termination,voltage is doubled.
50 7
Software-selectable (5 MHz, 20 MHz, Infinite)
Short-protected up to ±50 V
BNC
FREQUENCY STABILITY
Long Term:
100 ppm
TRIGGER
Source:
External Trigger:
Trigger Slope:
Connector:
Internal or External
0 to 5 V TTL
Rising or Falling
BNC
EXTERNAL CLOCK (OPTIONAL)
Clock Frequency:
Voltage:
Connector:
Selection:
www.gage-applied.com
Minimum DC,
Maximum 80 MHz
0 to 5 V TTL
BNC
Software-selectable
MULTI-CARD SYSTEMS
Operating Modes:
Maximum Number of Cards:
Master/Slave:
Multiple/Independent:
Master/Slave or Multiple/Independent
8 (1 Master and 7 Slave cards)
Limited by backplane
OPERATING SYSTEMS SUPPORTED
Windows 95/98/ME/2000/XP CompuGen Driver version 1.3x.xx
SOFTWARE DEVELOPMENT KITS (SDK)
CompuScope SDK for C/C++ for Windows
CompuScope SDK for MATLAB for Windows
CompuScope SDK for LabVIEW for Windows
APPLICATION SOFTWARE
CGWin Software (for Win 95/98/NT)
MATERIALS SUPPLIED
One CompuGen 1100 card
One Gage CompuGen ISA CD
includes CGWin Software for Windows, Drivers, and SDKs
RECOMMENDED ACCESSORIES
50 7 Shunt
WARRANTY
With compliments
Helmut Singer Elektronik
One year parts and labor
All specifications subject to change without notice;
specifications are not guaranteed under all possible combinations of modes of
www.helmut-singer.de info@helmut-singer.de
operation.
fon +49 241 155 315
fax +49 241 152 066
Feldchen 16-24 D-52070 Aachen Germany
Toll-Free (US and Canada):
phone 1-800-567-4243
fax 1-800-780-8411
ORDERING INFORMATION
Hardware & Upgrades
CompuGen 1100 - 512K
CompuGen 1100 - 1M
CompuGen 1100 - 2M
CompuGen 1100 - 4M
CompuGen 1100 - 8M
CompuGen 1100 - 16M
110-101-001
110-101-002
110-101-003
110-101-004
110-101-005
110-101-006
CG1100 Memory Upgrades
Contact Factory
CG1100: External Clock Upgrade
110-181-011
CG1100: Master Multi-Card Upgrade
110-181-012
CG1100: Slave Multi-Card Upgrade
110-181-013
CG1100: 50 Ohm Shunt
110-111-001
Application Software
CGWin Software
Included
Software Development Kits (SDKs)
CompuGen SDK for C/C++
CompuGen SDK for MATLAB
CompuGen SDK for LabVIEW
900 N. State St.
Lockport, IL 60441-2200
Included
Included
Included
All Upgrades performed at the factory.
Updated January 9th, 2006
Copyright © 2004, 2006 Gage Applied Technologies. All rights reserved.
www.gage-applied.com
Direct:
phone +1-514-633-7447
fax +1-514-633-0770
Email:
prodinfo@gage-applied.com
To find your local sales representative
or distributor or to learn more about
GaGe’s products visit:
www.gage-applied.com
We offer the widest range of
CompuScope 14100
high-speed and high-resolution
Ultra-Fast Waveform Digitizer Card for PCI Bus
digitizers available on the market
today. Our powerful PC-based
instrumentation products allow
you to create reliable, flexible
and high-performance solutions
quickly and easily.
Reduce development time
and costs for testing complex
applications such as radar,
wireless communications,
General-purpose digitizer module for high-accuracy synthetic instrumentation,
automated test systems, and scientific research.
spectroscopy, etc. by using our
GageScope software or SDKs.
FEATURES
•
14 bit, 100 MS/s A/D
APPLICATIONS
•
Up to 100 MHz bandwidth
Non-destructive testing
•
Up to 8 MegaSamples of on-board acquisition memory
Military & Aerospace
•
63 dB signal to noise ratio
Communications & Wireless
•
Multi-card systems of up to 8 channels at 100 MS/s
(16 channels at 50 MS/s)
•
Fast data transfer rate to PC memory
•
Programming-free operation with GageScope® oscilloscope software
•
Software Development Kits available for LabVIEW, MATLAB, C/C#
Radar, Lidar
High energy physics
Embedded digitizer
www.gage-applied.com
CompuScope 14100 Simplified Block Diagram
CS14100 ANALOG BOARD
CS14100 BASE BOARD
COMPUSCOPE 14100
CompuScope 14100 samples analog signals at speeds up to 100 MS/s
with 14-bit resolution and stores the data in on-board memory.
rates of up to 80 MB/s under single-tasking operating systems. Under
Windows, this rate depends on the architecture of the user application.
Under controlled conditions, it is still possible to achieve 80 MB/s
recording speed to the system RAM.
100 MS/S SAMPLING
CompuScope 14100 uses two monolithic sub-ranging A/D converters,
each running at 50 MS/s, to provide a dual-channel simultaneous
real-time sampling rate of 50 MS/s.
BUS MASTERING
In the single-channel mode the two ADCs are clocked in a “ping-pong”
mode to achieve up to 100 MS/s sampling. An on-board crystal-controlled
timing circuit ensures timebase accuracy and long-term thermal stability.
A PCI bus Master is a card which can take control of the bus and
transfer data to any PCI target device such as system RAM without any
involvement from the CPU.
The on-board auto-calibration circuitry allows the two channels to be
matched in order to reduce the image signal.
FLEXIBLE TRIGGERING
HIGH IMMUNITY TO DIGITAL NOISE
In order to isolate the high-frequency analog circuitry from PCI
bus-related digital electronics, a two-board piggy-back configuration is
used. This allows maximum separation of analog and digital grounds,
thereby providing high immunity to digital noise.
CompuScope 14100 is fully capable of becoming a PCI bus master in
order to transfer data at the maximum rate of 80 MB/s.
CompuScope 14100 features state-of-the-art analog triggering. An
analog comparator provides triggering from either one of the input
channels, or from an external signal or from software.
In addition to the trigger source, trigger level and slope are also selectable
by software, making the trigger system similar to traditional oscilloscopes.
EXTERNAL CLOCK
MEMORY DEPTH
CompuScope 14100 is available with memory depths of 1M and 8M
(14-bit samples). This memory can be used as a circular buffer for
storage of pre- and post-trigger data.
In the single-channel mode, the maximum number of sample points is
equal to the memory depth of the CompuScope 14100 model being used,
whereas in the dual-channel mode the maximum number of sample
points is half the memory depth.
The data stored in the CompuScope 14100 memory can be transferred
to the system RAM for post-processing, display or storage to hard disk
without any interface bus (no GPIB bus required).
FAST BUS THROUGHPUT
The high-speed, 32 bit, bus-mastering interface to the PCI bus allows
the data from the on-board memory of the CompuScope 14100 to be
transferred to the system RAM, or any other PCI destination, at sustained
An external clock input is included as standard on the CS14100 as a BNC
input for situations where a special sampling frequency is required.
In both single-channel and dual-channel mode, input signals are sampled
at every rising edge of the External Clock.
This External Clocking
scheme is a marked
improvement over the
options available for
previous CompuScope
models.
The External Clock must
be a sine wave with a
minimum amplitude
of 1 Volt RMS and a
maximum amplitude of
2 Volts RMS.
www.gage-applied.com
With compliments
Helmut Singer Elektronik
www.helmut-singer.de info@helmut-singer.de
fon +49 241 155 315
fax +49 241 152 066
Feldchen 16-24 D-52070 Aachen Germany
The allowed external clock range is 40 to 100 MHz for single channel
mode or 20 to 50 MHz for dual
channel mode
The duty cycle of the External
Clock signal must be 50% ±30%
for single channel mode and 50%
±5% for dual channel mode.
MULTIPLE RECORD
Even though the PCI bus allows very fast data throughput to system
RAM, there may still be applications in which data bursts cannot be offloaded either because of very fast trigger repeat frequency or because of
software limitations.
Multiple Recording allows CS14100 to capture data on successive triggers
and stack it in
the on-board
memory. Up to
4,194,304 triggers
can be captured
in Multiple Record
mode.
It should be noted that only post-trigger data can be captured in Multiple
Record Mode.
100 MHZ BANDWIDTH VERSION OF CS141000
A version of the CS14100 is available with 100 MHz enhanced
bandwidth.
With 100 MHz bandwidth, the CS14100 widens the precision
and range of applications of fast, high-resolution digitizers. The
enhanced bandwidth minimizes the distortion of higher frequency
components, improving the characterization of fast pulses from
radar signal and high-speed electronic circuitry. While sampling at
100 MS/s, the new CS14100-100MHz allows undersampling, all the
way up to the Nyquist frequency, of continuous periodic signals to
extract important spectral information.
A better frequency response also enables more reliable I&Q
measurements in communication systems. The CS14100 is the tool
of choice for your critical test and measurements applications.
To allow higher frequencies through, including noise, some of the
standard CS14100 specifications are affected when purchasing the
100 MHz bandwidth version. Please see the detailed specifications
below for more information.
Bandwidth (Typical):
120 MHz
Bandwidth (Guaranteed):
100 MHz
Typical Dynamic Parameters: Measured at specified input at
100 MS/s / 50 MS/s (Single / Dual)
GageScope Software can display the stacked data as individual
acquisitions. Software drivers also provide support for accessing Multiple
Record data.
Single Channel Mode
15 MHz
75 MHz
15 MHz
75 MHz
41
41
41
-63
6.5
48
52
47
-54
7.8
56
74
55
-63
9.0
52
67
51
-61
8.3
SNR (dB)
SFDR (dB)
SINAD (dB)
THD (dB)
ENOB (bits)
Once the CS14100 has finished capturing a Multiple Record segment,
the trigger circuitry is automatically re-armed within 18 (9) sample clock
cycles in single (dual) channel mode,to start looking for the next trigger.
No software intervention is required.
Dual Channel Mode
Multiple Recording is useful for applications where a series of bursts of
data have to be captured in quick succession and there is not enough
time to off-load the data to system RAM.
Another situation may be when data storage has to be optimized. These
are cases in which only certain portions of the incoming signal are of
interest and data capture during the dead-time between successive
portions is not useful.
Examples of these situations are radar pulses, ultrasound data, lightning
pulses, imaging signals and explosion testing..
SYSTEM REQUIREMENT
PCI-based computer with at least one free full-length PCI slot, 128 MB
RAM, 50 MB hard disk and SVGA video.
SIZE
MULTI-CARD SYSTEMS
One of the most unique features of the CompuScope cards is the
Multi-Card system that can be configured.
A Multi-Card system, comprised of one Master and up to 7 Slave CS14100
boards, can be
Slave 1 Board
ordered from the
Slave 2 Board
factory if the user
Master Board
wants to capture
more than two
channels with a
common clock and
trigger. A board-toboard interconnect is
supplied with the system.
This interconnect carries all
the signals needed for proper synchronization.
The following Master/Slave systems can be configured.
• For 1M Memory Models: 2, 4, 6 or 8 cards can be configured
• For 4M & 8M Memory Models: 2, 3 or 4 cards can be configured
GageScope can then display all channels from these boards on the same
screen. Software drivers also support such Master/Slave systems.
Memory Depth:
1M
8M
Card occupies:
1 full-length slot
2 full-length slots
POWER (IN WATTS)
+5 V
Memory
Worst case
Typical
1M
24.8
22.5
8M
30.3
27.5
+12 V
All Memory Models
Worst case
Typical
1.7
1.5
-12 V
All Memory Models
Worst case
Typical
0.6
0.5
Note: Y-cable must be connected to auxiliary power connector if more than
one CS14100 card is installed
www.gage-applied.com
CHANNELS A & B
Inputs per card:
2
Impedance:
1 M7 40 pF or 50 7; software-selectable
Coupling:
AC or DC
Resolution:
14 bits
Bandwidth:
DC coupled:
DC to 50 MHz
AC coupled:
10 Hz to 50 MHz
Input Voltage Ranges:
±100 mV, ±200 mV, ±500 mV, 1 V, ±2 V, ±5 V
Absolute Maximum Amplitude:
±15 V (continuous)
1 M7 Impedance:
±5 V (continuous)
50 7 Impedance:
DC Accuracy relative to full scale input:
Input Range
Accuracy
±5 V, ±2 V, ±1 V
±500 mV
±200 mV
±100 mV
0.5%
0.5%
1%
2%
Sampling Rate
Single-channel Mode (Channel A only):
MS/s:
100, 50, 25, 10, 5, 2, 1
kS/s:
500, 200, 100, 50, 20, 10, 5, 2, 1
Dual-channel Mode (Channel A and B simultaneously):
MS/s:
50, 25, 10, 5, 2, 1
kS/s:
500, 200, 100, 50, 20, 10, 5, 2, 1
Protection:
1 M7 Impedance:
Diode Clamped
No Protection
50 7 Impedance:
Connector:
BNC
†DYNAMIC PARAMETERS
Measured using 1 MHz sine wave input at 50 MS/s, dual channel mode
with amplitude of 95% of full scale on the ±1V range. Typical values listed
SNR:
63 dB
SFDR:
70 dB
SINAD: 60 dB
THD:
-72 dB
ENOB:
10.2 bits
Coupling:
Connector:
INTERNAL CLOCK
Source:
Accuracy:
In on-board memory
1M, 8M (14-bit samples)
Full on-board memory
Up to half on-board memory per channel
TRIGGERING
Number of Trigger Inputs:
Trigger Source:
Type:
Sensitivity:
Level Accuracy:
Slope:
Post Trigger Data:
2 per system
CH A, CH B, EXT, Software
Analog triggering
±10% of full scale
±5% of full scale
Positive or Negative; software-selectable
64 (128) points minimum.
Can be defined with a 64 (128) point
resolution in dual (single) channel mode
EXTERNAL TRIGGER
Impedance:
Amplitude:
Voltage Range:
Bandwidth:
1 M7, 35 pF
Absolute Max ±15 V
±1 V and ±5 V
30 MHz
100 MHz Clock Oscillator
±50 ppm (0 to 70° C)
EXTERNAL CLOCK
Maximum Frequency
Minimum Frequency
Signal Level:
Termination Impedance:
Sampling Edge:
Required Duty Cycle:
Coupling:
100 MHz in single channel
50 MHz in dual channel
40 MHz in single channel
20 MHz in dual channel
MIN 1 V RMS
MAX 2 V RMS
50 7
Rising
50% ±30% in single channel
50% ±5% in dual channel
AC
MULTIPLE RECORD
Pre-trigger Data:
Record Length:
None
128 (256) points minimum.
Can be defined with a 64 (128) point
resolution in dual (single) channel mode
Maximum number of Triggers: 4,194,304
MULTI-CARD SYSTEMS
Operating Mode:
Number of Cards in:
Master/Slave Mode:
Master/Slave or Multiple Independent
2, 4, 6 or 8 cards for 1M models
2, 3 or 4 cards for 4M models
Multiple Independent Mode: Limited by backplane
Maximum Number of Channels
in Master/Slave Mode:
16 at 50 MS/s (1M model)
8 at 100 MS/s (1M model)
MASTER/SLAVE SYSTEM TRIGGERING
Number of Trigger Inputs:
Trigger Source:
ACQUISITION MEMORY
Data Storage:
Memory Sizes:
Maximum Memory Depth:
Single-Channel Mode:
Dual-Channel Mode:
AC or DC
BNC
Sensitivity :
Level Accuracy :
Trigger Slope:
2 per system
CH 1, CH 2, EXT or Software
(Master Card Only)
± 10% of full scale
± 5% of full scale
Positive or Negative; software-selectable
PCI BUS INTERFACE
Plug-&-Play:
Bus Width:
Bus Speed:
Compatibility:
Fully supported
32 bits
33 MHz
5 Volt PCI-compliant slot
OPERATING SYSTEMS SUPPORTED
Windows 98/ME/NT*
CompuScope Driver version 3.60.22
* Version 4, SP3 or higher
Windows 2000**/XP
CompuScope Driver version 4.xx.xx
** SP1 or higher
APPLICATION SOFTWARE
GageScope: Windows-based software for programming-free operation
LITE Edition:
Included with purchase, provides basic functionality
Standard Edition:
Provides limited functionality of advanced
analysis tools, except for Extended Math
Professional Edition: Provides full functionality of all advanced analysis
tools
www.gage-applied.com
SOFTWARE DEVELOPMENT KITS (SDK)
CompuScope SDK for C/C# for Windows*
CompuScope SDK for MATLAB for Windows
CompuScope SDK for LabVIEW for Windows
*C/C# SDK is compatible with LabWindows/CVI 7.0+ compiler.
Visual Basic.NET support available with purchase of C/C# SDK.
Contact your Gage Sales Agent for information on Linux support.
ELECTROMAGNETIC COMPATIBILITY
EC Council Directive 89/336/EEC
Compliant
EN 61326 Class A
IEC 61000-4-2 Electrostatic Discharge (Performance Criterion B)
IEC 61000-4-3 RF Electromagnetic Field (Performance Criterion A)
IEC 61000-4-4 Electrical Fast Transient/Burst (Performance Criterion B)
IEC 61000-4-5 Power Surge (Performance Criterion B)
IEC 61000-4-6 Conducted RF (Performance Criterion A)
IEC 61000-4-11 Voltage Dips & Interruptions (Performance Criterion B)
EN 61000-3-2 AC Power Line Harmonics Emissions
AS/NZS 2064
Australian emissions standard for Industrial, Scientific and Medical Equipment
Compliance demonstrated on a single card configuration
ENVIRONMENTAL
Operating Temperature:
Relative Humidity:
Maximum Altitude:
5°C to 40°C
Less than 80%, non-condensing
2,000 meters
WARRANTY
One year parts and labor
Certificate of NIST Traceable Calibration is included.
All specifications subject to change without notice;
specifications are not guaranteed under all possible combinations of modes of operation.
†These specs differ slightly on the CS14100-100 MHz Bandwidth version. Please refer to
the 100 MHz Bandwidth Version section on p.3 of this datasheet for specs on this model.
ORDERING INFORMATION
Hardware & Upgrades
CompuScope 14100-1M
141-001-002
CompuScope 14100-8M
141-001-003
CompuScope 14100-128M
141-001-004
CompuScope
14100-512M
With
compliments141-001-005
CompuScope 14100-1G
141-001-006
CS14100 Memory Upgrades
Contact Factory
Master Multi-Card Upgrade
141-181-003
www.helmut-singer.de
info@helmut-singer.de
Slave Multi-Card
Upgrade
141-181-004
CompuScope
Option315141-001-100
fon14100-100MHz
+49 241 155
fax +49 241 152 066
Helmut Singer Elektronik
Feldchen
GageScope
Software 16-24
GageScope: Lite Edition
GageScope: Standard Edition
D-52070 Aachen
Germany
Included
300-100-351
(with Purchase of CompuScope Hardware)
GageScope: Professional Edition
300-100-354
(with Purchase of CompuScope Hardware)
Software Development Kits (SDKs)
Gage SDK Pack on CD
CompuScope SDK for C/C#
CompuScope SDK for MATLAB
CompuScope SDK for LabVIEW
900 N. State St.
Lockport, IL 60441-2200
Toll-Free (US and Canada):
phone 1-800-567-4243
fax 1-800-780-8411
Direct:
phone +1-514-633-7447
fax +1-514-633-0770
Email:
prodinfo@gage-applied.com
To find your local sales representative
or distributor or to learn more about
GaGe’s products visit:
www.gage-applied.com
200-113-000
200-200-101
200-200-102
200-200-103
All Upgrades performed at the factory.
Updated April 3rd, 2006
Copyright © 2004, 2005, 2006 Gage Applied Technologies. All rights reserved.
www.gage-applied.com