KTT F2 vs. Bsun Tuzi (Bunny)
An in-depth look at the KTT F2 and the Bsun Tuzi (Bunny) switches—which one is the best fit for you?
Overview
When it comes to choosing between the KTT F2 and the Bsun Tuzi (Bunny) mechanical keyboard switches, both linear switches offer unique qualities that cater to different preferences. The KTT F2 stands out with its distinct hollow sound signature, providing a comfortable typing experience with its medium-light weightiness and lightly textured feel. On the other hand, the Bsun Tuzi (Bunny) promises a refined typing experience with a combination of clack and smoothness, thanks to its modified LY stem, PC top, and PA bottom. While the F2 leans towards a feathery and subtle typing experience, the Tuzi (Bunny) offers a clacky and high-pitched feel. However, let's dive in a bit deeper beyond generalities so you can best decide on the best switch for you.
By the numbers
Technical specifications
Actuation force
43g
Actuation force
37g
Bottom-out force
53g
Bottom-out force
42g
Pre-travel
1.90 mm
Pre-travel
2.00 mm
Total travel
3.50 mm
Total travel
3.60 mm
Factory lubed
Yes
Factory lubed
Yes
Stem construction
Standard
Stem construction
Standard
Stem material
POM
Stem material
UPE
Top housing material
Polycarbonate
Top housing material
Polycarbonate
Bottom housing material
Polycarbonate
Bottom housing material
Nylon
Mount type
PCB (5-pin)
Mount type
PCB (5-pin)
Spring
Stainless steel
Spring
22mm single-stage spring
Housing materials
Both the KTT F2 and the Bsun Tuzi (Bunny) utilize polycarbonate for their top housing, creating a sharp, higher-pitched, and crisp sound profile. This is due to polycarbonate being a stiff plastic that resonates well, resulting in a clear sound output. Additionally, the translucency of polycarbonate is advantageous for RGB lighting effects, enhancing the overall visual appeal of the switches. Despite both switches using the same material for the top housing, slight differences in design or manufacture may result in subtle variations in sound and feel.
In contrast, the KTT F2 features a polycarbonate bottom housing, which, like the top housing, contributes to a sharp and resonant sound profile. The stiffness of polycarbonate allows for a clear sound output, especially when combined with the bottom-out sensation when pressing the key. On the other hand, the Bsun Tuzi (Bunny) utilizes a nylon bottom housing, which produces a deeper and fuller sound profile. Nylon, being a softer plastic, absorbs more sound and creates a duller, rounder sound. This contrast in bottom housing material may lead to noticeable differences in typing experience between the two switches.
Overall, the choice of housing materials in mechanical switches plays a significant role in determining the sound and feel of the typing experience. While both the KTT F2 and the Bsun Tuzi (Bunny) utilize polycarbonate for their top housing, their differing bottom housing materials—polycarbonate for the F2 and nylon for the Tuzi—lead to distinct sound profiles. The F2's sharper and crisper sound may appeal to those seeking a more precise typing experience, while the Tuzi's deeper and fuller sound could be preferred by users looking for a softer, more rounded typing feel. Ultimately, the combination of housing materials in a switch contributes to its overall sound and tactile feedback, making it essential for enthusiasts to consider these factors when selecting a switch for their mechanical keyboard.
Weight
The actuation force and bottom out force of the KTT F2 linear switch and Bsun Tuzi (Bunny) linear switch offer different typing experiences. The F2 has a slightly heavier actuation force of 43 grams and a bottom out force of 53 grams, providing a medium-light typing feel. In comparison, the Tuzi has a lighter actuation force of 37 grams and a bottom out force of 42 grams, giving a light typing experience. The lighter actuation force of the Tuzi may be preferred by those who type for extended periods, while the heavier force of the F2 may appeal to users seeking a more substantial typing feedback. Both switches offer distinct typing experiences based on their actuation and bottom out forces, catering to different preferences for typing comfort and feedback.
Travel distance
The KTT F2 linear switch and the Bsun Tuzi (Bunny) linear switch have slightly different travel distances. The F2 has a travel distance of 3.5 mm, while the Tuzi has a slightly longer travel distance of 3.6 mm. While the difference in distance is minimal, it can still impact the overall feel and responsiveness of the switch. Gamers, in particular, may prefer the shorter travel distance of the F2 for faster response times during gaming sessions. On the other hand, those who prefer a more substantial key press may lean towards the slightly longer travel distance of the Tuzi. Both switches offer a unique typing experience, with the F2 providing a quicker response and the Tuzi offering a more deliberate key press. Ultimately, the choice between the two will depend on personal preference and typing style.
Price comparison
Which switch is more bang for your buck?
The Bsun Tuzi (Bunny) has an MSRP of $4.00 per 10 switches. At Milktooth, we are able to pass on savings to our customers and offer the Tuzi (Bunny) for $3.49.
The KTT F2 comes in at $3.90 per 10 switches.
Here at Milktooth, we offer the best prices on switches (on average, 27% lower the competition). In addition, we offer free shipping on orders over $49.00. We also offer free returns and exchanges, so you can shop with guaranteed satisfaction.
That said, while price is an important piece of the puzzle, our opinion is that you should ultimately pick the option that most suits your unique preferences since you’ll be using these switches for years to come. In other words, finding something perfect for you is, in our view, the most important criteria.
Typing experience
In terms of sound, the KTT F2 linear switch is known for its neutral and subdued sound profile, offering a moderate actuation force requirement and a dampened sound when pressed. This makes it suitable for various environments and typing preferences. On the other hand, the Bsun Tuzi (Bunny) linear switch is characterized by its clacky and high-pitched sound, producing sharp and crisp noises. This distinct sound profile adds a sense of precision and liveliness to each keystroke.
When it comes to feel, the KTT F2 switch provides a feathery, mild, and subtle typing experience, offering a light actuation force and a comfortable feel for extended typing sessions. The lightly textured feel of the F2 adds a tactile nuance to each keystroke, enhancing the overall typing experience. In contrast, the Bsun Tuzi (Bunny) switch is described as silky, offering an exceptionally smooth typing feel that minimizes resistance when pressing and releasing keys. This smoothness adds a sense of fluidity and ease to typing tasks.
Overall, the KTT F2 and Bsun Tuzi (Bunny) linear switches offer unique sound and feel qualities that cater to different preferences and typing styles. While the F2 provides a more neutral and subdued sound with a feathery and subtle feel, the Tuzi (Bunny) switch delivers a clacky sound and silky smooth feel. Choosing between these switches ultimately depends on your personal preference for sound profile and typing experience. If you prefer a more distinct auditory experience with a comfortable, lightly textured feel, the KTT F2 might be the ideal choice. Conversely, if you value a sharp, crisp sound and exceptionally smooth typing feel, the Bsun Tuzi (Bunny) switch could be the perfect fit for you.
Conclusion
Bringing it all together, when deciding between the KTT F2 linear switch and the Bsun Tuzi (Bunny) linear switch, you should consider your preference for typing feel and sound. If you prefer a medium-light switch with a lightly textured feel and a distinct hollow sound signature, the F2 may be the better choice for you. On the other hand, if you prefer a light switch with a smooth typing experience and a clacky sound profile, the Tuzi (Bunny) could be more suited to your liking. Ultimately, your decision should be based on your personal preferences for typing comfort and auditory feedback.
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