T3DSO1000 Data Sheet
Oscilloscopes
Debug with Confi dence
100 MHz – 200 MHz
Front panel of the four channel series Front panel of the two channel series
Tools for Improved Debugging
Long Capture – 7 Mpts/Ch and 14Mpts interleaved. Capture more time and show more waveform detail.
Math and Measure – 7 basic math functions plus FFT
and 38 automatic measurement parameters.
Extract results from waveforms and measurements.
Connectivity – USB for mass storage, printing and
PC control, plus LAN for fast data transfer.
Save data for external analysis and screen images
for reports.
Serial Bus Trigger and Decode – I2C, SPI, UART,
RS232, CAN, LIN.
Debug serial buses directly in your Oscilloscope.
Waveform Sequence Recorder – record and play back
up to 80,000 waveforms.
Replay the changing waveform history.
Optional MSO – 16 Digital Channels
(4 channel series only).
Add mixed signal debugging to your Oscilloscope.
Key Specifi cations
Bandwidth 100 MHz, 200 MHz
Channels 2 or 4
Memory up to 7 Mpts/Ch (14 Mpts interleaved)
Sample Rate up to 500 MS/s / 1 GS/s interleaved
Display 7" Bright TFT LCD (800 x 480)
Connectivity USB Host, USB Device, LAN
PRODUCT OVERVIEW
The T3DSO1000 series employs a new generation of high
speed display technology that provides excellent signal
clarity,  delity and performance. The system noise floor is
also lower than similar products in the industry. It comes
with a minimum vertical input range of 500 uV/div, an
innovative digital trigger system with high sensitivity and
low jitter, and a waveform capture rate of 400,000 frames/
sec (sequence mode). The T3DSO1000 also employs
a256-level intensity grading display function and a color
temperature display mode not found in other models in
this class. Teledyne Test Tools latest oscilloscope offering
supports multiple powerful triggering modes including
serial bus triggering. Serial bus decoding for IIC, SPI, UART,
CAN, LIN bus types is included. The models also include
History waveform recording, and sequential triggering
that enable extended waveform recording and analysis.
T3DSO1102: 2 Channel 100 MHz
T3DSO1104: 4 Channel 100 MHz
T3DSO1204: 4 Channel 200 MHz
Key Features
100 MHz, 200 MHz bandwidth models
Two channel series have one 1 GSa/s ADC, four
channel series have two 1 GSa/s ADCs. When all
channels are enabled, each channel has a maximum
sample rate of 500 MSa/s. When a single channel
per ADC is active, it has sample rate of 1 GSa/s
The newest generation of high speed display
technology
Waveform capture rate up to 100,000 wfm/s
(normal mode), and 400,000 wfm/s (sequence
mode)
Supports 256-level intensity grading and color
display modes Record length up to 14 Mpts
Digital trigger system
Teledyne Test Tools new T3DSO1000 Oscilloscopes feature two channel and four channel models. The two channel
model is available with 100 MHz analog bandwidth, a single ADC with a 1 GSa/s maximum sample rate, and a single
memory module with 14 Mpts of sample memory. The four channel scope is available in 100 and 200MHz models
and incorporates two 1 GSa/s ADCs and two 14 Mpts memory modules. When all channels are enabled, each channel
has sample rate of 500 MSa/s and a standard record length of 7 Mpts. When only a single channel per ADC is active,
the maximum sample rate is 1 GSa/s and the maximum record length is 14 Mpts.
For ease-of-use, the most commonly used functions can be accessed with its user-friendly front panel design.
Another powerful addition is the new 1millionpoint
FFT math function that gives the T3DSO1000 very high
frequency resolution when observing signal spectra. The
new digital design also includes a hardware co-processor
that delivers measurements quickly and accurately
without slowing acquisition and front-panel response.
The features and performance of Teledyne Test Tools new
T3DSO1000 cannot be matched in this price class.
The four channel series includes even more functions,
including: searching and navigating, on-screen Bode plot,
16 digital channels (Option), an external USB powered
25MHz AWG module (Option), a USB WIFI adapter
(Option), and an embedded application that allows remote
control via web browser.
2
Intelligent trigger: Edge, Slope, Pulse Width, Window,
Runt, Interval, Time out (Dropout), Pattern
Serial bus triggering and decoding (Standard), supports
protocols IIC, SPI, UART, RS232, CAN, LIN
Video trigger, supports HDTV
Low background noise with voltage scales from
500μV/div to 10 V/div
10 types of one-button shortcuts, supports Auto Setup,
Default, Cursors, Measure, Roll, History, Display/Persist,
Clear Sweep, Zoom and Print Segmented acquisition
(Sequence) mode, divides the maximum record length
into multiple segments (up to 80,000), according to
trigger conditions set by the user, with a very small dead
time segment to capture the qualifying event.
History waveform record (History) function, maximum
recorded waveform length is 80,000 frames.
Automatic measurement function for 38 parameters
as well as Measurement Statistics, Zoom, Gating,
Math, History and Reference functions
1 Mpts FFT
Math and measurement functions use all sampled
data points (up to 14 Mpts)
Math functions (FFT, addition, subtraction,
multiplication,division, integration, differential, square
root)
Preset key can be customized for user settings or
factory “defaults”
Security Erase mode
High Speed hardware based Pass/ Fail function
MSO, 16 digital channels (four channel series only,
option)
Models and key Specifi cation
Model T3DSO1102
T3DSO1104
T3DSO1204
Bandwidth 100 MHz 200 MHz
SamplingRate (Max.) Two channel series have a single 1 GSa/s ADC, four channel series have two 1 GSa/s
ADCs. When all channels are enabled, each channel has a maximum sample rate of
500 MSa/s. When a single channel per pair is active, that channel has sample rate of
1GSa/s
Channels 4 (four channel series)
2+EXT (two channel series)
Memory Depth (Max.) 7 Mpts/CH (not interleave mode);
14 Mpts/CH (interleave mode)
Waveform Capture Rate (Max.) 100,000 wfm/s (normal mode), 400,000 wfm/s (sequence mode)
Trigger Type Edge, Slope, Pulse Width, Window, Runt, Interval, Dropout, Pattern, Video
Serial Trigger and decoder (Standard) IIC, SPI, UART/RS232, CAN, LIN
16 Digital Channels
(four channel series only, option)
Maximum waveform capture rate up to 1 GSa/s, Record length up to 14 Mpts/CH
USB AWG module
(four channel series only, option)
One channel, 25 MHz, sample rate of 125 MHz, wave length of 16 kpts
Bode plot ( four channel series only) Minimum start frequency of 10 Hz, minimum scan bandwidth of 500 Hz, maximum
scan bandwidth of 120 MHz (dependent on Oscilloscope and AWG bandwidth),
500 maximum scan frequency points
USB WIFI adapter
(four channel series only, option)
802.11b/g/b, WPA-PSK, the adapter must be purchased separately by the scope user
(TP-Link TL-WN725N)
I/O USB Host, USB Device, LAN, Pass/Fail, Trigger Out, Sbus (Teledyne Test Tools MSO)
Probe (Std) 2/4 pcs passive probe T3PP300 2/4 pcs passive probe T3PP300
Display 7 inch TFT-LCD (800 x 480)
Weight Four channel series: Without package 2.6 Kg; With package 3.8 Kg
Two channel series: Without package 2.5 Kg; With package 3.5 Kg
3
Bode plot (four channel series only)
Search and navigate (four channel series only)
USB AWG module (four channel series only, option)
USB WIFI adapter (four channel series only, option)
Web Browser based control (four channel series only)
Large 7 inch TFT-LCD display with 800 * 480 resolution
Multiple interface types: USB Host, USB Device
(USB-TMC), LAN, Trigger Out
Supports SCPI remote control commands
Supports Multi-language display and embedded
online help
4
FUNCTION & CHARACTERISTICS
Front panel of the four channel series
Front panel of the two channel series
7-inch TFT-LCD display with 800 * 480 resolution
Most commonly used functions are accessible using
10different one-button operation keys: Auto Setup,
Default, Cursor, Measure, Roll, History, Persist, Clear
Sweep, Zoom, Print
7 inch TFT-LCD display and
10 one-button menus
When all channels are enabled, each channel
has a maximum sample rate of 500 MSa/s.
When a single channel per pair is active,
that channel has sample rate of 1 GSa/s
Record Length of Up to 14 Mpts
(single channel/pair mode),
7 Mpts/CH (two channels/ pair mode)
Waveform Capture Rate
Up to 400,000 wfm/s
The four channel series has two 1 GSa/s ADC chips
(channel 1 and 2 share one, channel 3 and 4 share
another), so that each channel can achieve sample rates
up to 500 MSa/and work on bandwidths of 200 MHz
when all channels are enabled.
Using hardware-based Zoom technologies and max record
length of up to 14 Mpts, users are able to over-sample to
capture longer time periods at higher resolution and use
the zoom feature to see more details within each signal.
With a waveform capture rate of up to 400,000 wfm/s
(sequence mode), the oscilloscope can easily capture
the unusual or low-probability events.
5
256-Level Intensity Grading and
Color Temperature Display
History Waveforms (History) Mode and
Segmented Acquisition (Sequence)
Gate and Zoom MeasurementSerial Bus Decoding Function (Standard)
New display technology provides for fast refresh rates.
The resulting intensity-graded trace is brighter for events
that occur with more frequency and dims when the
events occur with less frequency.
Playback the latest triggered events using the history
function. Segmented memory collection will store trigger
events into multiple (Up to 80,000) memory segments,
each segment will store triggered waveforms and
timestamp each frame.
Through Gate and Zoom measurement, the user can
specify an arbitrary interval of waveform data analysis
and statistics. This helps avoid measurement errors
that can be caused by invalid or extraneous data, greatly
enhancing the measurements’ validity and flexibility.
The color temperature display is similar to the intensity-
graded trace function, but the trace occurrence is
represented by different colors (color “temperature”) as
opposed to changes in the intensity of one color. Red
colors represents the more frequent events, while blue is
used to mark points that occur lest frequently.
T3DSO1000 displays the decoding through the
events list. Bus protocol information can be quickly
and intuitively displayed in a tabular format.
True measurement to 14 M points
At any one timebase, T3DSO1000 can measure using
all 14 M sample points. This ensures the accuracy of
measurements while the math coprocessor decreases
measurement time and increases ease-of-use.
6
FUNCTION & CHARACTERISTICS
1 M points FFT 16 Digital Channels/MSO
(four channel series only, option)
Search and Navigate
(four channel series only)
Customizable Default Key
The new math co-processor enables FFT analysis of
incoming signals using up to 1 M samples per waveform.
This provides high frequency resolution with a fast refresh
rate. The FFT function also supports a variety of window
functions so that it can adapt to different spectrum
measurement needs.
16 digital channels enables users to acquire and trigger on
the waveforms then analyze the pattern, simultaneously
with one instrument. Color coded logic levels clearly
differentiate high and low states.
The T3DSO1000 4 channel series can search events
speci ed by the user in a frame. It can also navigate by
time (delay position) and historical frames.
The current parameters of the oscilloscope can be
preset to Default Key through the Save menu.
Hardware-Based High Speed
Pass/Fail function
The T3DSO1000 utilizes a hardware-based Pass/Fail
function, performing up to 40,000 Pass/Fail decisions
each second. Easily generate user de ned test templates
provide trace mask comparison making it suitable for
long-term signal monitoring or automated production
line testing.
7
Bode Plot (four channel series only) USB 25 MHz AWG Module
(four channel series only, option)
USB WiFi Adapter
(four channel series only, option)
Web control (four channel series only)
T3DSO1000 can control the USB AWG module, control an
independent Teledyne Test Tools T3AFG instrument, scan
an object’s amplitude and phase frequency response,
and display the data as a Bode Plot. It can also show the
result lists, and export the data to a USB disk.
The four channel series supports an optional USB 25 MHz
function/arbitrary waveform generator that is operated
from the USB host connection. Functions include
Sine, Square, Ramp, Pulse, Noise, DC and 45 built-in
waveforms. The arbitrary waveforms can be accessed
and edited by the Teledyne Test Tools PC software.
WiFi control of instrumentation can provide a convenient
and safe method of con guring and collecting data.
This new feature works with a Teledyne Test Tools
approved WiFi adapter to provide wireless control and
communications with Teledyne Test Tools 4 channel
scopes. The approved adapter is the TP-Link TL-WN725N
(not supplied).
With the new embedded web server, users can control the
4channel scopes from a simple web page. This provides
remote troubleshooting and monitoring capabilities.
USB WiFi Adapter
Complete Connectivity
T3DSO1000 supports USB Host, USB Device (USB-TMC),
LAN(VXI-11), Pass/Fail and Trigger Out.
Back panel of
the four channel
series
Back panel of
the two channel
series
8
SPECIFICATIONS
Acquire System
Sampling Rate 1 GSa/s (single channel/pair), 500 MSa/s (two channels/pair)
Memory Depth Max 14 Mpts/Ch (single channel/pair), 7 Mpts/Ch (two channels/pair)
Peak Detect 2 nsec (Four channel series)
4 nsec (Two channel series)
Average Averages: 4, 16, 32, 64, 128, 256, 512, 1024
Eres Enhance bits: 0.5, 1.5, 2, 2.5, 3; Selectable
Waveform interpolation Sin(x)/x, Linear
Input
Channels 4 (Four channel series)
2+EXT (Two channel series)
Coupling DC, AC, GND
Impedance DC: (1 MΩ ± 2 %) || (15 pF ± 2 pF) (Four channel series)
DC: (1 MΩ ± 2 %) || (18 pF ± 2 pF) (Two channel series)
Max.Input voltage 1 MΩ ≤ 400 Vpk (DC + Peak AC <= 10 kHz)
CH to CH Isolation DC-Max BW > 40 dB
Probe attenuation 0.1X, 0.2X, 0.5X, 1X, 2X, 5X, 10X……1000X, 2000X, 5000X, 10000X
Vertical System
Bandwidth (–3 dB ) 200 MHz (T3DSO1204)
100 MHz (T3DSO1102 / T3DSO1104)
Vertical Resolution 8-bit
Vertical Scale (Probe 1X) 500 μV/div – 10 V/div (1-2-5 sequence )
Offset Range (Probe 1X) 500 μV – 150 mV: ± 2 V
152 mV – 1.5 V: ± 20 V
Bandwidth Limit 20 MHz ± 40%
DC – 10 % (BW): ± 1 dB
Bandwidth Flatness 10 % – 50 % (BW): ± 2 dB
50 % – 100 % (BW): + 2 dB/-3 dB
Low Frequency Response (AC –3 dB) ≤ 10 Hz (at input BNC)
Noise ST-DEV ≤ 0.5 division (< 1 mV/div)
ST-DEV ≤ 0.2 division (< 2 mV/div)
ST-DEV ≤ 0.1 division (≥ 2 mV/div)
SFDR including harmonics ≥ 35 dB
DC Gain Accuracy ≤ ± 3.0%: 5 mV/div – 10 V/div
≤ ± 4.0%: ≤ 2 mV/div
Offset Accuracy ± (1 % * Offset + 1.5 % * 8 * div + 2 mV): ≥ 2 mV/div
± (1 % * Offset + 1.5 % * 8 * div + 500 uV): ≤ 1 mv/div
Risetime Typical 1.8 ns (T3DSO1204)
Typical 3.5 ns (T3DSO1102 / T3DSO1104)
Overshoot (500 ps Pulse) < 10 %
Horizontal System
Timebase Scale 1.0 ns/div – 100 s/div
Channel Skew < 100 ps
Waveform Capture Rate Up to 100,000 wfm/s (normal mode), 400,000 wfm/s (sequence mode)
Intensity grading 256 Levels
Display Format Y-T, X-Y, Roll
Timebase Accuracy ± 25 ppm
Roll Mode 50 ms/div – 100 s/div (1-2-5 step)
9
Trigger System
Trigger Mode Auto, Normal, Single
Trigger Level Internal: ± 4.5 div from the center of the screen
EXT: ± 0.6 V (Two channel series)
EXT/5: ± 3 V (Two channel series)
Holdoff Range 80 ns – 1.5 s
Trigger Coupling AC
DC
LFRJ
HFRJ
Noise RJ
Coupling Frequency Response DC: Passes all components of the signal
AC: Blocks DC components and attenuates signals below 8 Hz
LFRJ: Blocks the DC component and attenuates the low-frequency components below 2 MHz
HFRJ: Attenuates the high-frequency components above 1.2 MHz
Coupling Frequency Response DC: Passes all components of the signal
LFRJ: Blocks the DC component and attenuates the low-frequency components below 10 KHz
HFRJ: Attenuates the high-frequency components above 500 KHz
components below 10 KHz Internal: ± 0.2 div
EXT (Two channel series): ± 0.4 div
Trigger Sensitivity DC – Max BW 0.6 div
EXT (Two channel series): 200 mVpp DC – 10 MHz
300 mVpp 10 MHz – BW frequency
EXT/5 (Two channel series): 1 Vpp DC – 10 MHz
1.5 Vpp 10 MHz – BW frequency
Trigger Jitter < 100 ps
Trigger Displacement Pre-Trigger: 0 – 100 % Memory
Delay Trigger: 0 to 10,000 div
Edge Trigger
Slope Rising, Falling, Rising & Falling
Source All channels/ EXT/ (EXT/5)/ AC Line (Two channel series)
All channels/ AC Line (Four channel series)
Slope Trigger
Slope Rising, Falling
LimitRange < , > , < > , > <
Source All channels
TimeRange 2 ns – 4.2 s
Resolution 1 ns
Pulse Trigger
Polarity +wid , -wid
Limit Range < , > , < > , > <
Source All channels
Pulse Range 2 ns ~ 4.2 s
Resolution 1 ns
Video Trigger
Signal Standard NTSC, PAL, 720p/50, 720p/60, 1080p/50, 1080p/60, 1080i/50, 1080i/60, Custom
Source All channels
Sync Any, Select
Trigger condition Line, Field
10
SPECIFICATIONS
Window Trigger
Window Type Absolute, Relative
Source All channels
Interval Trigger
Slope Rising, Falling
Limit Range < , > , < > , > <
Source All channels
Time Range 2 ns ~ 4.2 s
Resolution 1 ns
Dropout Trigger
Timeout Type Edge, State
Source All channels
Slope Rising, Falling
Time Range 2 ns ~ 4.2 s
Resolution 1 ns
Runt Trigger
Polarity +wid , -wid
Limit Range < , > , < > , > <
Source All channels
Time Range 2 ns ~ 4.2 s
Resolution 1 ns
Pattern Trigger
Pattern Setting Invalid, Low, High
Logic AND, OR, NAND, NOR
Source All channels
Limit Range < , > , < > , > <
Time Range 2 ns ~ 4.2 s
Resolution 1 ns
Serial Trigger
I2C Trigger
Condition Start, Stop, Restart, No Ack, EEPROM, 7 bits Address & Data, 10 bits Address & Data,
Data Length
Source (SDA/SCL) All channels
Data format Hex
Limit Range EEPROM: =, >, <
Data Length EEPROM: 1 byte
Addr & Data: 1 ~ 2 byte
Data Length: 1 ~ 12 byte
R/W bit Addr & Data: Read, Write, Don’t care
SPI Trigger
Condition Data
Source (CS/CL/Data) All channels
Data format Binary
Data Length 4 ~ 96 bit
Bit Value 0, 1, X
Bit Order LSB, MSB
11
UART / RS232 Trigger
Condition Start, Stop, Data, Parity Error
Source (RX/TX) All channels
Data format Hex
Limit Range =, >, <
Data Length 1 byte
Data Width 5 bit, 6 bit, 7 bit, 8 bit
Parity Check None, Odd, Even
Stop Bit 1 bit, 1.5 bit, 2 bit
Idle Level High, Low
Baud (Selectable) 600/1200/2400/4800/960019200/38400/57600/115200 bit/s
(Custom) 300 bit/s ~ 334000 bit/s
CAN Trigger
Condition All, Remote, ID, ID + Data, Error
Source All channels
ID STD (11 bit), EXT (29 bit)
Data Format Hex
Data Length 1~2 byte
Baud Rate (Selectable) 5 k/10 k/20 k/50 k/100 k/125 k/250 k/500 k/800 k/1 M bit/s
Baud Rate (Custom) 5 kbit/s ~ 1 Mbit/s
LIN Trigger
Condition Break, Frame ID, ID+Data, Error
Source All channels
ID 1 byte
Data Format Hex
Data Length 1 ~ 2 byte
Baud Rate (Selectable) 600/1200/2400/4800/9600/19200 bit/s
Baud Rate (Custom) 300 bit/s ~ 20 kbit/s
Serial Decoder
I2C Decoder
Signal SCL, SDA
Address 7 bits, 10 bits
Threshold -4.5 ~ 4.5 div
List 1 ~ 7 lines
SPI Decoder
Signal SCL,MISO, MOSI, CS * NOTE 2 channel scopes can only use 2 signal identiers
Edge Select Rising, Falling
Idle Level Low, High
Bit Order MSB, LSB
Threshold -4.5 ~ 4.5 div
List 1 ~ 7 lines
UART / RS232 Decoder
Signal RX, TX
Data Width 5 bit, 6 bit, 7 bit, 8 bit
Parity Check None, Odd, Even
Stop Bit 1 bit, 1.5 bit, 2 bit
Idle Level Low, High
Threshold -4.5 ~ 4.5 div
List 1 ~ 7 lines
CAN Decoder
Signal CAN_H, CAN_L
Source CAN_H, CAN_L, CAN_H-CAN_L
Threshold -4.5 ~ 4.5 div
List 1 ~ 7 lines
LIN Decoder
LIN Specication Package Revision Ver1.3, Ver2.0
Threshold -4.5 ~ 4.5 div
List 1 ~ 7 lines
12
Measurement
Source All channels, All channels in Zoom, Math, All References, History
Number of Measurements Display 5 measurements at the same time
Measurement Range Screen region, Gate region
Measurement Parameters (38 Types)
Vertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveform
Pk-Pk Difference between maximum and minimum data values
Ampl Difference between top and base in a bimodal signal, or between max and
min in an unimodal signal
Top Value of most probable higher state in a bimodal waveform
Base Value of most probable lower state in a bimodal waveform
Mean Average of all data values
Cmean Average of data values in the rst cycle
Stdev Standard deviation of all data values
Cstd Standard deviation of all data values in the rst cycle
VRMS Root mean square of all data values
Crms Root mean square of all data values in the rst cycle
FOV Overshoot after a falling edge; (base-min)/Amplitude
FPRE Overshoot before a falling edge; (max-top)/Amplitude
ROV Overshoot after a rising edge; (max-top)/Amplitude
RPRE Overshoot before a rising edge; (base-min)/Amplitude
Level@X the voltage value of the trigger point
Horizontal( Time) Period Period for every cycle in waveform at the 50 % level, and positive slope
Freq Frequency for every cycle in waveform at the 50 % level, and positive slope
+Wid Width measured at 50 % level and positive slope
-Wid Width measured at 50 % level and negative slope
Rise Time Duration of rising edge from 10 – 90 %
Fall Time Duration of falling edge from 90 – 10 %
Bwid Time from the rst rising edge to the last falling edge, or the rst falling edge
to the last rising edge at the 50 % crossing
+Dut Ratio of positive width to period
-Dut Ratio of negative width to period
Delay Time from the trigger to the rst transition at the 50 % crossing
Time@Level Time from the trigger to each rising edge at the 50 % crossing.
When Statistics is Off, it shows the time from the trigger to the last rising
edge at the 50 % crossing.
When Statistics is On, it shows the Current, Mean, Min, Max, Standard
Deviation of time from the trigger to each rising edge at the 50 % crossing
in multiple frames (number = Count).
Delay Phase Calculate the phase difference between two edges
FRR Time between the rst rising edges of the two channels
FRF Time from the rst rising edge of channel A to the rst falling edge of channel B
FFR Time from the rst falling edge of channel A to the rst rising edge of channel B
FFF Time from the rst falling edge of channel A to the rst falling edge of channel B
LRR Time from the rst rising edge of channel A to the last rising edge of channel B
LRF Time from the rst rising edge of channel A to the last falling edge of channel B
LFR Time from the rst falling edge of channel A to the last rising edge of channel B
LFF Time from the rst falling edge of channel A to the last falling edge of channel B
Skew Time of source A edge minus time of nearest source B edge
Cursors Manual : Time X1, X2, (X1-X2), (1/ΔT) Voltage Y1, Y2, (Y1-Y2)
Track: Time X1, X2, (X1-X2)
Statistics Current, Mean, Min, Max, Stdev, Count
Counter Hardware 6 bit counter( channels are selectable)
SPECIFICATIONS
13
Math Function
Operation + , - , * , / , FFT , d/dt , ∫dt , √
FFT window Rectangular, Blackman, Hanning, Hamming, Flattop
FFT display Full Screen, Split, Exclusive
Number of Decoders 2
USB AWG Module (four channel series only, option)
Channel 1
Max. Output Frequency 25 MHz
Sampling Rate 125 MSa/s
Frequency Resolution 1 μHz
Frequency Accuracy ± 50 ppm
Vertical Resolution 14-bits
AmplitudeRange -1.5 ~ +1.5 V (50 Ω)
-3 ~ +3 V (High-Z)
Waveform Type Sine, Square, Ramp, pulse, Noise, DC and 45 built-in waveforms
Output impedance 50 Ω ± 2 %
Protection Over-Voltage Protection, Current-Limiting Protection
Sine
Frequency 1 μHz ~ 25 MHz
Offset Accuracy (10 kHz) ± (1 % * Offset Setting Value + 1 mVpp)
Amplitude flatness (10 kHz, 5 Vpp) ± 0.3 dB
SFDR DC ~ 1 MHz -60 dBc
1 MHz ~ 5 MHz -55 dBc
5 MHz ~ 25 MHz -50 dBc
HD DC ~ 5 MHz -50 dBc
5 MHz ~ 25 MHz -45 dBc
Square/Pulse
Frequency 1 μHz ~ 10 MHz
Duty Cycle 1 % ~ 99 %
Rise/Fall time < 24 ns (10 % ~ 90 %)
Overshoot (1 kHz,1 Vpp, Typical) < 3 % (typical 1 kHz, 1 Vpp)
Pulse Width > 50 ns
Jitter < 500 ps + 10 ppm
Ramp
Frequency 1 μHz ~ 300 kHz
Linearity (Typical) < 0.1 % of Pk-Pk (Typical, 1 kHz, 1 Vpp, 100 % Symmetry)
Symmetry 0 % ~ 100 % (Adjustable)
DC
Offset range ± 1.5 V (50 Ω)
± 3 V (High-Z)
Accuracy ± (|offset| * 1 % + 3 mV)
Noise
Bandwidth > 25 MHz (-3 dB)
Arbitrary Wave
Frequency 1 μHz ~ 5 MHz
Wave Length 16 kpts
Sampling Rate 125 MSa/s
Waveform Entry EasyScope and USB-Stick
14
Digital Channels (four channel series only, option)
No. of Channels 16
Max. Sampling Rate 1 GSa/s
Memory Depth 14 Mpts/CH
Min. Detectable Pulse Width 4 ns
Level Group D0~D7, D8~D15
Level Range -8 V ~ 8 V
Logic Type TTL, CMOS, LVCMOS3.3, LVCMOS2.5, custom
Skew[2] D0~D15: ±1 sampling interval
Analog To Digital: ± (1 sampling interval +1 ns)
I/O
Standard USB Host, USB Device, LAN, Pass/Fail, Trigger Out
Pass/Fail 3.3 V TTL Output
Display (Screen)
Display Type 7-inch TFT LCD
Display Resolution 800 × 480
Display Color 24 bit
Contrast (Typical) 500:1
Backlight 300 nit
Range 8 x 14 divisions
Display (Waveform)
Display Mode Dot, Vector
Persist Time Off, 1 Sec, 5 Sec, 10 Sec, 30 Sec, Innite
Color Display Normal, Color
Screen Saver 1 min, 5 min, 10 min, 30 min, 1 hour, Off
Language Simplied Chinese, Traditional Chinese, English, French, Japanese, Korean, German,
Russian, Italian, Portuguese
Environments
Temperature Operating: 10 ~ +40
Non-operating: -20 ~ +60
Humidity Operating: 85 % RH, 40 Deg C, 24 hours
Non-operating: 85 % RH, 65 Deg C, 24 hours
Height Operating: ≤ 3000 m
Non-operating: ≤ 15,266 m
Electromagnetic Compatibility 2004/108/EC)
Execution Standard EN 61326-1:2006
EN 61000-3-2:2006 + A2:2009, EN 61000-3-3:2008
Safety 2006/95/EC
Execution Standard EN 61010-1:2010 / EN 61010-2-030:2010
Power Supply
Input Voltage 100 ~ 240 VAC, CAT II, Auto selection
Frequency 50/60/400 Hz
Power 25 W Max
Mechanical (Four channel series)
Dimensions Length: 312 mm / Width: 132.6 mm / Height: 151 mm
Weight N.W: 2.6 kg; G.W: 3.8 kg
Mechanical (Two channel series)
Dimensions Length: 312 mm / Width: 134 mm / Height: 150 mm
Weight N.W: 2.5 Kg; G.W: 3.5 Kg
SPECIFICATIONS
15
Probes and Accessories
Probe Model Picture Description
Passive Probes T3PP300 Passive Probe, Bandwidth: 300 MHz
Current Probes T3CP50 Bandwidth: 50 MHz, Max. continuous current: 30Arms,
Peak current: 50 A
Switch Ratio: 100 mV/A, 1 V/A, Accuracy: 1 V/A (±1 % ±1 mA),
100 mV/A (±1 % ±10 mA), DC 12 V/1.2 A power adapter
Differential
Voltage Probes
T3DP7000 Bandwidth: 100 MHz
Differential Range: 7000 V (DC + Peak AC),
100X/1000X, Accuracy: ±2 %, DC 5 V/1 A USB adapter
High Voltage
Probe
T3HVP100 Bandwidth: 40 MHz
Voltage Range: DC 10 KV, AC (rms): 7 KV (sine), AC (Vpp): 20 KV (Pulse)
1000X, Accuracy: ≤ 3 %
USB AWG Module T3DSO1000-
FGMOD
Output Sine, Square, Ramp, pulse, Noise, DC and 45 built-in waveforms.
The arbitrary waveforms can be accessed and edited by the EasyScope
PC software
Ordering information
Product Name T3DSO1102 100 MHz Two Channels
T3DSO1104 100 MHz Four Channels
T3DSO1204 200 MHz Four Channels
Standard Accessories USB Cable -1
Quick Start -1
Passive Probe -4 / 2
Certi cation -1
Power Cord -1
Optional Accessories 16 Channel MSO Software (four channel series only) T3DSO1000-MSO
16 Channel Logic Analyzer Lead (four channel series only) T3DSO1000-LS
(Requires T3MSO1000 Software)
AWG Software (four channel series only) T3DSO1000-FG
USB AWG Module Hardware (four channel series only) T3DSO1000-FGMOD
(Requires T3DSO1000-FG)
WIFI Software (four channel series only) T3DSO1000-WIFI
High Voltage Probe T3HVP100
Current Probes T3CP50
Differential Probes T3DP7000
© 2018 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc. All rights reserved. Specications, prices, availability and delivery subject to change without notice.
Product brand or brand names are trademarks or requested trademarks of their respective holders.
T3 stands for Teledyne Test Tools.
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Company Prole
Teledyne LeCroy is aleading provider of oscilloscopes, protocol
analyzers and related test and measurement solutions that
enable companies across awide range of industries to design
and test electronic devices of all types. Since our founding
in 1964, we have focused on creating products that improve
productivity by helping engineers resolve design issues
faster and more effectively. Oscilloscopes are tools used by
designers and engineers to measure and analyze complex
electronic signals in order to develop high-performance
systems and to validate electronic designs in order to improve
time to market.
The Teledyne Test Tools brand extends the Teledyne LeCroy
product portfolio with a comprehensive range of test
equipment solutions. This new range of products delivers
a broad range of quality test solutions that enable engineers
to rapidly validate product and design and reduce time-to-
market. Designers, engineers and educators rely on Teledyne
Test Tools solutions to meet their most challenging needs for
testing, education and electronics validation.
Location and Facilities
Headquartered in Chestnut Ridge, New York, Teledyne
Test Tools and Teledyne LeCroy has sales, service and
development subsidiaries in the US and throughout
Europe and Asia. Teledyne Test Tools and Teledyne LeCroy
products are employed across awide variety of industries,
including semiconductor, computer, consumer electronics,
education, military/aerospace, automotive/industrial, and
telecommunications.
Teledyne LeCroy
(US Headquarters)
700 Chestnut Ridge Road
Chestnut Ridge, NY. USA 10977-6499
Phone: 800-553-2769 or 845-425-2000
Fax Sales: 845-578-5985
Phone Support: 1-800-553-2769
Email Sales: contact.corp@teledynelecroy.com
Email Support: support@teledynelecroy.com
Web Site: http://teledynelecroy.com/
Teledyne LeCroy
(European Headquarters)
Teledyne LeCroy GmbH
Im Breitspiel 11c
D-69126 Heidelberg, Germany
Phone: +49 6221 82700
Fax: +49 6221 834655
Phone Service: +49 6221 8270 85
Phone Support: +49 6221 8270 28
Email Sales: contact.gmbh@teledynelecroy.com
Email Service: service.gmbh@teledynelecroy.com
Email Support: tlc.t3.appsupport.eu@teledyne.com
Web Site: http://teledynelecroy.com/germany
ABOUT TELEDYNE TEST TOOLS
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