Click here to find out why the Paramount MYT™ is the ideal solution for your astronomy pursuits.
50 lb. (23 kg) instrument capacity; 100 lb. (45 kg) maximum payload capacity (instruments + counterweights)
Unibody mount design weighs 34 lb. (15 kg) without counterweights or counterweight shaft
AutoHome™ homing capability ensures the mount always knows its orientation
(after performing an initialization process called “homing”), even after power failure
Maximum seven (7) arcseconds peak-to-peak periodic error before correction
Calibrated azimuth and elevation polar alignment adjustments speed polar alignment
Fourth-generation telescope control system (TCS) combines state-of-the-art electronics with field-tested reliability
Belt-driven gears with spring loaded worm gears produce virtually zero backlash
Ample space for additional through the mount cables to minimize the inevitable cabling chaos
All electronics and through the mount wiring are housed inside the mount
Includes a versatile equipment mounting plate (a.k.a the Versa-Plate™) that accepts any telescope
Two port USB 2.0 hub on the Instrument Panel, right where it is needed most
48V DC power supply and PC to mount cabling included
30 arcsecond all sky pointing accuracy using TPoint telescope modeling software
Clutch-free design maintains the TPoint assisted pointing accuracy
Includes the Paramount Software Suite (featuring TheSky™ Imaging edition and more). The USB thumb drive comes with installers that are compatible with macOS, Windows and Linux (ARM32, ARM64, and x86_64 architectures).
Software features ProTrack™, Direct Guide™ (guider cable free autoguiding), TPoint Super Model™,
All Sky Image Link™, Closed Loop Slew, @Focus™ automated focus, periodic error curve fitting,
permanent periodic error correction, live stacking, dithering and more
The Multi-OS Plus module lets you install and use TheSky on all your computers and operating systems while maintaining its familiar look and feel.
On-axis Absolute Encoders vs. Motor-based Encoders.
Paramount's equipped with on-axis absolute encoders know where they are at all times. Paramount's with incremental encoders (or motor-based encoders) know only how far they have moved since they were initialized using a nightly process called homing.
The crucial additional difference is that the on-axis absolute encoders are fitted directly to the mount axes themselves, bypassing the worm drives. Paramount's with incremental encoders are fitted to the worms instead, which means that with incremental encoders alone, periodic errors in the worm drive show up in the tracking. These mounts must be calibrated and corrected using a process called periodic error correction (PEC), which measures and records the repeatable gear train errors and removes them. (TheSky features advanced, multi-harmonic PE detection and PEC calibration that minimizes periodic error in mounts with incremental encoders.)
For mounts with incremental encoders, homing re-zeros the encoders when precise sensors on each of the axes are reached. From then on, the incremental encoders are in effect delivering absolute readings.
However, the crucial additional difference remains, namely that the incremental encoder system is behind the worm drive, and periodic error correction is still required to get the best out of the RA tracking.
High-resolution on-axis absolute encoder technology is significantly more expensive than incremental encoders.
On-axis absolute encoders eliminate periodic error and enable the mount to always know where “home” is.
That’s convenient and expedites setup for an evening of imaging. However, with Paramounts, periodic error is already very low, and after a one-time training, it becomes negligible. Moreover, Paramount’s included Homing software homes in only 15 to 60 seconds.
So, at least with Paramounts, periodic error is practically non-existent and homing is a breeze.
What about pointing and tracking?
Without encoders, Paramounts routinely allow 5-to-10-minute unguided exposures; many have reported 20 minutes. Also without encoders, Paramount’s produce all sky pointing accuracies at or below 30 arcseconds RMS.
Absent Paramount’s exceptional software, that performance would not be possible. Operating in conjunction with TPoint™, ProTrack™ continuously updates the mount’s position across both axes to correct system-wide tracking errors including tube flexures, atmospheric refraction, polar misalignment, harmonic errors from mis-centered encoders and/or worm gears, and more.
On-axis absolute encoders alone cannot correct these errors which exist with all telescopes. A properly applied telescope model is necessary to achieve superior pointing and tracking.
So are on-axis absolute encoders right for you?
Perhaps if you want to enjoy the conveniences mentioned above. And for many, that’s enough.
With that said, the optional on-axis 26-bit Renishaw absolute encoders with 0.02 arc second precision are the finest available and they operate in temps as low as –40° C.
The Paramount MYT delivers superior performance made possible through its artful integration of precision mechanics, advanced control system electronics, and the uniquely capable Paramount Software Suite (included).
Skillfully carrying up to 50 pounds (23 kg) of telescopes, cameras, and accessories, the Paramount MYT can help you create your next astrophoto masterpiece, at home, or on the go.
Legendary Paramount system performance is within reach. Grab yours today.
19 × 20 × 10 in
The table below is the Paramount MYT packing list. For additional details, including shipping box dimensions and weights, see the Packing List section of the Paramount User Guide (please log in to view this document).
Paramount™MYT Robotic Mount
German equatorial mount body.
Versa-Plate™ Mounting Plate
Attached to Paramount mount body during shipping, the Versa-Plate telescope mounting plate securely holds your telescope. Use either the integrated Losmandy D dovetail or the grid of mounting holes to attach telescope mounting rings.
4.6 m (15-foot) USB 2.0 mini-b USB cable.
Power Supply Unit (PSU)
Input: 100-240V AC ~50/60 Hz. Output: 221 W max. 48V DC 4.6A max.
6-ft. long power cable with a NEMA 5-15 male plug.
Hand Controller with Joystick
Hand paddle includes lanyard, variable rate switch, integrated red-light flashlight, integrated joystick for homing and “at the telescope” control
The 13 in. (33 cm) x 1.5 in. (3.8 cm) counterweight shaft can carry up to four 9 kg (20 lb.) or five 4 kg (10 lb.) counterweights.
One 20 lb. (9 kg) stainless-steel counterweight is included and can balance about 25-30 lb. (11-15 kg) of instrumentation.