Narishige Pc10 Manual New Jun 2026
Here are the key technical specifications for the Narishige PC-10, compiled from various sources:
Raise the upper slider until it locks into the top position.
Regular maintenance ensures long-term consistency and extends the lifespan of the heating components.
The device uses gravitational force as its pulling mechanism, which can be adjusted through several manual and digital controls: narishige pc10 manual new
Increase the heater dial value incrementally by 2–3 units. Heat setting is too high
The manufacturer's FAQ pages and distributor specification sheets provide the most current official information for the PC-10.
The is a dual-stage, vertical-pull micropipette puller designed for high-precision laboratory tasks such as patch-clamping and microinjection. Mastering the latest operational protocols ensures consistent pipette geometry and extends the life of your heating filament. Key Features and Specifications Here are the key technical specifications for the
Typically accommodates glass capillaries with outer diameters ranging from 1.0 mm to 1.5 mm.
Immediately turn off the machine. Lower the Heater dials and replace the ruined glass. The filament is off-center.
She clicked the power and felt the controller vibrate with hidden readiness. In the dim glow, the LED panel blinked a soft green. The manual described an optional replacement tip; Lena fitted one and pretended it was a pen. She had a recipe to make: a line of diluted dye to trace through a microchannel, so thin it would show how the controller breathed. Heat setting is too high The manufacturer's FAQ
Altering the variables on the PC-10 changes the physical geometry of the finished pipette. Adjusting Taper Length
The Narishige PC-10 is a dual-stage, vertical micropipette puller that has become a standard in laboratories for decades. Its principle is beautifully simple, yet its execution is highly precise. The instrument uses a vertical heating element to melt a glass capillary tube. As the glass softens, the puller relies on the gravitational force of its own weight, supplemented by adjustable weights, to pull the capillary into two separate, fine-tipped micropipettes. This method allows for the consistent fabrication of pipettes with tips ranging from one micron down to as small as one-tenth of a micron.
Raise the lower slider assembly until it locks into the upper position.
Increase the Heat level, decrease Magnet 2 (final pull) force, or increase the delay time between stages.