Outemu Maple Leaf vs. Bsun Tuzi (Bunny)
An in-depth look at the Outemu Maple Leaf and the Bsun Tuzi (Bunny) switches—which one is the best fit for you?
Overview
When it comes to mechanical keyboard switches, two popular options to consider are the Outemu Maple Leaf, a tactile switch, and the Bsun Tuzi, a linear switch. The Maple Leaf is best known for its unique design and tactile category, while the Tuzi stands out for its refined typing experience and is characterized as clacky, high-pitched, and silky. If you prefer tactile feedback and a distinct typing feel, the Maple Leaf might be the right choice for you. On the other hand, if you value smoothness and a more consistent typing experience, the Tuzi could be the better option. However, let's dive a bit deeper beyond generalities so you can determine the best switch for you.
By the numbers
Technical specifications
Actuation force
55g
Actuation force
37g
Bottom-out force
65g
Bottom-out force
42g
Pre-travel
2.30 mm
Pre-travel
2.00 mm
Total travel
3.30 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
Nylon
Top housing material
Polycarbonate
Bottom housing material
Nylon
Bottom housing material
Nylon
Mount type
Plate (3-pin)
Mount type
PCB (5-pin)
Spring
Stainless steel
Spring
22mm single-stage spring
Housing materials
In comparing the housing materials of the Outemu Maple Leaf and the Bsun Tuzi (Bunny), the key difference lies in the materials used for the top housing. The Maple Leaf utilizes a nylon top housing, which results in a deeper and fuller sound profile due to the softness of the plastic absorbing more sound. On the other hand, the Tuzi (Bunny) features a polycarbonate top housing, creating a sharper, higher-pitched sound profile with more clarity and resonance. Despite this difference, both switches offer unique sound profiles that cater to different preferences, whether it be a duller and rounder sound of nylon or a crisper and more resonant sound of polycarbonate.
When it comes to the bottom housing, both the Maple Leaf and the Tuzi (Bunny) employ nylon as the material. This classic switch housing material offers a deeper and fuller sound profile, similar to the effects seen in the top housing of the Maple Leaf. With both switches utilizing nylon for the bottom housing, users can expect a consistent sound experience regardless of the differences in the top housing material. The duller and rounder sound created by nylon in the bottom housing complements the characteristics of the top housing, resulting in a cohesive sound profile for both switches.
Overall, while the top housing material of the Outemu Maple Leaf and the Bsun Tuzi (Bunny) vary between nylon and polycarbonate, the consistent use of nylon for the bottom housing ensures a similarity in the sound profile and typing experience of both switches. Whether you prefer the deeper and fuller sound of nylon or the sharper and crisper sound of polycarbonate, both switches offer unique qualities that cater to different preferences. Ultimately, the choice between the Maple Leaf and the Tuzi (Bunny) hinges on personal preference for sound profile and typing experience.
Weight
When comparing the Outemu Maple Leaf tactile switch to the Bsun Tuzi (Bunny) linear switch, it is clear that the Maple Leaf has a heavier actuation force and bottom out force compared to the Tuzi. The Maple Leaf requires 55 grams of force to actuate and 65 grams to bottom out, making it a medium-heavy switch. On the other hand, the Tuzi only needs 37 grams to actuate and 42 grams to bottom out, making it a lighter option. The difference in force between the two switches is quite substantial, with the Maple Leaf offering a more substantial typing experience while the Tuzi provides a lighter touch, perfect for longer typing sessions. Ultimately, the choice between the two switches will depend on individual preference for actuation and bottom out forces, with lighter switches being preferred for extended use and heavier switches for those seeking a more tactile typing experience.
Travel distance
The Outemu Maple Leaf tactile switch has a travel distance of 3.3 mm, making it slightly shorter than the Bsun Tuzi (Bunny) linear switch, which has a travel distance of 3.6 mm. Despite the slight difference, both switches fall within the range of shorter travel distances that are currently popular, especially among gamers seeking faster response times. However, the Maple Leaf switch may feel more abrupt due to its shorter distance, while the Tuzi switch provides a slightly deeper press for those who prefer a more substantial key feel. Ultimately, the choice between the two switches will depend on personal preference for travel distance and key responsiveness.
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 Outemu Maple Leaf comes in at $3.10 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
When it comes to sound, the Outemu Maple Leaf tactile switch is known for its sound profile, which unfortunately is not specified in the provided information. On the other hand, the Bsun Tuzi (Bunny) linear switch is described as clacky and high-pitched, offering a sharp and snappy sound that can be perceived as crisp, bright, and percussive. Keep in mind that the sound produced by a switch can also be influenced by factors such as the keyboard board and keycaps used.
Moving on to the feel, the Outemu Maple Leaf switch doesn't have a specific descriptor provided in the information. In contrast, the Bsun Tuzi (Bunny) linear switch is known for its silky feel, offering an exceptionally smooth typing experience. These switches are designed to enhance typing smoothness and reduce resistance when pressing and releasing keys, providing a comfortable typing feel for users who prefer a smoother experience.
Considering the available information, the Outemu Maple Leaf tactile switch and the Bsun Tuzi (Bunny) linear switch have distinct qualities in terms of sound and feel. While the Maple Leaf's sound and feel characteristics are not specified, the Tuzi (Bunny) switch is characterized by its clacky, high-pitched sound and silky smooth feel. If you are looking for a switch that offers a refined typing experience with a combination of clack and smoothness, the Bsun Tuzi (Bunny) linear switch might be the ideal choice for you. Keep in mind that personal preference also plays a significant role in determining the best switch for your typing needs.
Conclusion
In summary, when choosing between the Outemu Maple Leaf tactile switch and the Bsun Tuzi (Bunny) linear switch, consider your preference for tactile feedback and actuation force. If you prefer a medium-heavy bottom out force of 65 grams and are looking for a switch with no specific standout features, the Maple Leaf might be the right choice for you. On the other hand, if you prefer a lighter bottom out force of 42 grams and are seeking a refined typing experience with a combination of clack and smoothness, the Tuzi (Bunny) linear switch could be more suited to your needs. Additionally, if you prefer a clacky and high-pitched sound profile in your keyboard, the Tuzi (Bunny) switch may be more appealing to you. However, if you prefer a smooth and silky typing experience, the Tuzi (Bunny) switch might be the better option for you. Ultimately, the decision between these two switches will come down to your personal preferences for typing feel, sound, and actuation force.
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