by williamsu | Jun 25, 2013 | Product News
The MotoPet™ Pipette Controller works with glass and plastic pipettes from 1 to 100 ml.
– Suction can be regulated by varying pressure applied to trigger button while dispensing can be carried out by gravity or supported by the pump.
– Features include high/low speed selection, digital display of parameters and 8 hours continuous operation.
– The battery is protected aganst over charging by timing and thermal systems.
– High or low speed selection and digital display of parameters.
– Ergonic, lightweight, reliable and durable
– PTFE filter and safety valve protect samples from cross contamination.
– Both the filter and pipette holder are easily exchanged and autoclaved.
by williamsu | Jun 25, 2013 | Product News
AxyPet pipettors combine the highest levels of accuracy and precision with design innovations intended to make the pipetting
experience more comfortable over prolonged use.
-Locking feature prevents accidental volume changes during pipetting procedures
-Thumb-friendly soft spring pipetting system reduces fatigue
-Unique side EZIject button option reduces thumb movement*
-Finger-hook to take the weight, for a more relaxed grip
-Large ergonomic push button is easy on the thumb during contact
Single Channel Pipettors
Volume Range
No. of
Channels Accuracy % Precision % Cat. No. Description
0.1-2 µL 1 ±12.0 – ±1.5 ±6.0- ±0.7 AP-2 0.1-2 µL Single Channel Pipettor
0.5-10 µL 1 ±4.0 – ±0.5 ±2.8 – ±0.4 AP-10 0.5-10 µL Single Channel Pipettor
2-20 µL 1 ±3.0 – ±0.8 ±1.5 – ±0.3 AP-20 2-20 µL Single Channel Pipettor
5-50 µL 1 ±2.5 – ±0.8 ±2.0 – ±0.4 AP-50 5-50 µL Single Channel Pipettor
10-100 µL 1 ±1.6 – ±0.8 ±0.8 – ±0.2 AP-100 10-100 µL Single Channel Pipettor
20-200 µL 1 ±1.2 – ±0.6 ±0.6 – ±0.2 AP-200 20-200 µL Single Channel Pipettor
50-250 µL 1 ±1.0 – ±0.6 ±0.4 – ±0.3 AP-250 50-250 µL Single Channel Pipettor
100-1000 µL 1 ±1.6 – ±0.6 ±0.4 – ±0.15 AP-1000 100-1000 µL Single Channel Pipettor
1-5 mL 1 ±0.6 – ±0.5 ±0.25 – ±0.15 AP-5000 1-5 ml Single Channel Pipettor
1-10 mL 1 ±2.5 – ±0.5 ±0.6 – ±0.2 AP-10ML 1-10 mL Single Channel Pipettor
*Left handed EZIject button available by special order
Additional Multi-channel Pipettor Features
– Plunger and Ejector are ergonomically located
– Curved ejector bar allows tips to be ejected in steps, reducing the amount of force required for ejection
– Tip manifold rotates 360°
– Each channel of the pipettor has an individual, precision piston assembly to ensure accuracy and reproducibility from one
pipetting series to the next
– Shafts withdraw when pressed against a row of tips
– Each shaft moves independently, minimizing jamming of tips
– Micrometer is continuously adjustable for selection of whole or fractional volumes
Multi-channel Pipettors
Volume Range
No. of
Channels Accuracy % Precision % Cat. No. Description
0.5-10 µL 8 ±8.0 – ±2.0 ±6.0 – ±1.2 AP-8-10 0.5-10 µL 8-Channel, Digital Pipettor
5-50 µL 8 ±4.0 – ±1.6 ±2.5 – ±0.6 AP-8-50 5-50 µL 8-Channel, Digital Pipettor
20-200 µL 8 ±3.0 – ±1.0 ±1.5 – ±0.6 AP-8-200 20-200 µL 8-Channel, Digital Pipettor
50-300 µL 8 ±1.6 – ±1.0 ±1.5 – ±0.6 AP-8-300 50-300 µL 8-Channel, Digital Pipettor
1-10 µL 12 ±8.0 – ±2.0 ±6.0 – ±1.2 AP-12-10 0.5-10 µL 12-Channel, Digital Pipettor
5-50 µL 12 ±4.0 – ±1.6 ±2.5 – ±1.6 AP-12-50 5-50 µL 12-Channel, Digital Pipettor
20-200 µL 12 ±3.0 – ±1.0 ±1.5 – ±0.6 AP-12-200 20-200 µL 12-Channel, Digital Pipettor
50-300 µL 12 ±1.6 – ±1.0 ±1.5 – ±0.6 AP-12-300 50-300 µL 12-Channel, Digital Pipettor
0.2-2 µL 16 ±12.0 – ±2.0 ±6.0 – ±1.0 AP-16-2 0.2-2 µL Adjustable Volume 16 Channel AxyPet Pipettor
0.5-10 µL 16 ±2.5 – ±1.0 ±1.8 – ±0.5 AP-16 0.5-10 µL Adjustable Volume 16 Channel AxyPet Pipettor
5-50 µL 16 ±2.5 – ±1.0 ±1.8 – ±0.5 AP-16-50 5-50 µL Adjustable Volume 16 Channel AxyPet Pipettor
by williamsu | Jun 25, 2013 | Product News
The new MaxyGene II Thermal Cycler replaces our successful and reliable MaxyGene. It brings increased speed and advanced features, providing the premium performance you have come to expect from Axygen brand products.
Features
- Unique flexible programming
- Rapid run times
- Improved workflow over traditional gradient cyclers
- Ramping rates up to 5°C/sec.
- Simple user interface
- Adjustable heated lid accommodates strips, tubes and microplates
- Pre-programmed standard protocols
Simplified Workflow – Improved Throughput
The MaxyGene II Thermal Cycler is extremely simple to program, compact in design and built to perform. The thermal cycler makes method optimization affordable and provides consistent, reliable results. It also features, Precision Thermal Control, rapid heating and cooling of the precision-machined sample block by six independently temperature controlled Peltier modules. A sophisticated algorithm program calculates sample temperature and triggers heating and cooling accordingly, minimizing over- and under-shooting. The MaxyGene II Thermal Cycler may be programmed to operate between one and six different annealing temperatures across the block. (See Figure 1) The thermal cycler provides improved throughput by reducing time and simplifies workflow by reducing steps.
A variety of applications – from single temperature soaks to sophisticated multistep programs can be performed with the MaxyGene II. All of these are easily set up. The time or temperature of a cycling step can be automatically increased or decreased during successive cycles. This is useful for “touchdown” applications and for extending annealing times as enzyme is depleted. Programs may also be paused while running. During operation, actual times and temperatures are displayed. Estimated run times are automatically calculated and a log of the last run can be displayed or downloaded to a printer or PC.
MaxyGene Thermal Cycler II Compatibility Guide
Well spacing in the MaxyGene Thermal Cycler II block is compatible with both thin walled thermal cycling plates and 0.2mL strip tubes. For best fit and performance, the use of Axygen thin walled polypropylene plates and tubes are recommended. Individual 0.2 mL tubes may also be used.
by williamsu | Jun 21, 2013 | Product News
Product Features
- Requires a sample volume of only 2ml (SV-10A: 10ml or more) so users do not waste any samples and can save costs.
- Titanium sensor plates
- Fine position adjustment of the sample cup in three axial directions
| Model |
SV-1A |
SV-10A |
SV-100A |
| Measurement Method |
Tuning Fork Vibration Method (Natural Frequency at 30Hz) |
| Viscosity Measurement Unit |
mPa·s,Pa·s,cP,P |
Pa·s,P |
| Viscosity Measurement Range |
0.3~1000mPa·s |
0.3~10000mPa·s |
1~100Pa·s |
| Repeatability |
1% of Reading (S.D., 20 – 30°C, No condensation) |
| Minimum Sample Amount |
2ml~ |
10ml~ |
| Temperature Measurement |
0~160°C / 0.1°C (32~320°F/0.1°F) |
| Display |
Vacuum Fluorescent Display (VFD) |
| Power Supply |
AC Adaptor (Approx. 14VA) |
| External Dimensions / Mass |
Main Unit: 112 (W)x132 (D)x291 (H) mm / Approx. 0.8kg
Display Unit: 138 (W)x132 (D)x170 (H) mm / Approx. 1.3kg |
| Standard Accessories |
Stand for Securing the Sensor Unit, X-Y-Z Stage, Cup Set
Software Set (including a Serial-USB Converter)
AC Adaptor, Connection Cable (1.5m), Carrying Case |
by williamsu | Jun 21, 2013 | Product News
Product Features
- High Measurement Accuracy
- Wide Measurement Range
- Non-Newtonian Sample Viscosity Measurement
- Foam Sample Measurement
- Flowing Sample Measurement
| Models |
Vibration Frequency |
Measurement Range |
Unit of Measure |
| SV-10 |
30Hz |
0.3 cP (mPa.s) ~
10,000 cP (mPa.s) |
mPa.s, Pa.s, cP, P |
| SV-100 |
30Hz |
10 P ~ 1,000 P |
Pa.s, P |
WinCT Viscosity
Via an RS232C interface, the WinCT-Viscometer software lets A&D’s SV series Sine-wave Vibro Viscometer display measurement progress in real time on a PC, and easily transmit the measured results to save or analyze. The WinCT-Viscometer CD-ROM is a standard accessory with the SV Series viscometer.
RsVisco, the graphing software utilized by WinCT-Viscometer, lets you create graphs of measured results and of the progress of viscosity measurement:
1. RsVisco creates the real-time graph of data received from A&D’s SV-series viscometer via RS-232C. RxVisco lets you graphically monitor in real time:
- Progress of change in viscosity during measurement
- Temperature data
- Temperature and viscosity, graphed together
2. You can choose from three types of graphs:
- Viscosity (Y axis) – Time (X axis)
- Viscosity/Temperature (Y axis) – Time (X axis)
- Viscosity (Y axis) – Temperature (X axis)
3. Graphs can be overlaid in repeating measurements, in 10 colors.
4. Measured data can be saved in a CSV format file.
5. Displayed graphs can be printed with a printer via a PC
