Difference between revisions of "Pinecil Tips"
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== Pinecil Tips == | == Pinecil Tips == | ||
{{Hint|Pay attention to the length! Pine Store sells two different lengths of tips.}} | {{Hint|Pay attention to the length! Pine Store sells two different lengths of tips.}} | ||
=== What kind of tips work? === | === What kind of tips work? === | ||
# Pinecil V2 uses both Pine64 designed Short Tips (ST line, 6.2-6.5 Ω) and TS-100 Normal length compatible tips (TS line, ~8.0 Ω). | # Pinecil V2 uses both Pine64 designed Short Tips (ST line, 6.2-6.5 Ω) and TS-100 Normal length compatible tips (TS line, ~8.0 Ω). | ||
# Presently, the V1 uses the normal length TS100 style tips (~8.0 ohms) until a firmware update enables manually switching the tip types. Check Github Ralim's IronOS [https://github.com/Ralim/IronOS/issues/1558 here] for progress on this. | # Presently, the V1 uses the normal length TS100 style tips (~8.0 ohms) until a firmware update enables manually switching the tip types. Check Github Ralim's IronOS [https://github.com/Ralim/IronOS/issues/1558 here] for progress on this. | ||
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=== How to increase tip life? === | === How to increase tip life? === | ||
# Typically, lead solder uses a working temperature of ~300°C-320°C and no-lead solder ~350°C-365°C (check the temperature charts in [[Pinecil_Guides_to_Soldering#What_temperature_should_I_use?|the soldering guides]] or google it for your specific solder type, it varies). Always start lower than needed and increase ~5°C at a time until you reach a good working temperature. If you want your tips to last longer, use the lowest temperatures you can comfortably work at. Thicker wires, etc., may need more (adjust). | # Typically, lead solder uses a working temperature of ~300°C-320°C and no-lead solder ~350°C-365°C (check the temperature charts in [[Pinecil_Guides_to_Soldering#What_temperature_should_I_use?|the soldering guides]] or google it for your specific solder type, it varies). Always start lower than needed and increase ~5°C at a time until you reach a good working temperature. If you want your tips to last longer, use the lowest temperatures you can comfortably work at. Thicker wires, etc., may need more (adjust). | ||
# The open source firmware | # The open source firmware may allow the use of temperatures past the manufacturer limit for tips, but that doesn't mean you should. That said, people have reported using the boost feature at 5-15 second burst to >430°C and have been perfectly fine (TS100 and Pine64 tips are readily available at reasonable prices and some people prefer convenience of higher temperatures and accept they might replace tips more frequently as a trade-off). | ||
# If the tips are not too expensive, some keep spare tips and boost to high temperatures freely for convenience, and simply replace the tip when it loses the plating or the tip fails (common sign of tip failure is tip plating is gone, has pit holes, or a multimeter measures OL infinite ohms across the 2 silver contacts on the cold end of the tip). | # If the tips are not too expensive, some keep spare tips and boost to high temperatures freely for convenience, and simply replace the tip when it loses the plating or the tip fails (common sign of tip failure is tip plating is gone, has pit holes, or a multimeter measures OL infinite ohms across the 2 silver contacts on the cold end of the tip). | ||
# Check out this [[Pinecil_Guides_to_Soldering|Soldering Guide article]] for more details on best practices for use and maintenance of tips. | # Check out this [[Pinecil_Guides_to_Soldering|Soldering Guide article]] for more details on best practices for use and maintenance of tips. | ||
=== How to check new tips? === | === How to check new tips? === | ||
# If you have a | [[File:Multimeter measuring Short Tip.png|200px|thumb|right| Short Tip 6.2 Ω when cold]] | ||
1. Remove the screw on top, then remove the cartridge. Clean new cartridges/tips with isopropyl alcohol (IPA) to remove any factory residue before installing (avoid strange behavior). If you have no IPA, use a dry clean towel, especially the white end with the two silver contacts (do not use water; it could get into the seam line on the white end). This often resolves issues with glitchy temperatures or random no-tip symbol from poor or dirty electric contact [https://github.com/Ralim/IronOS/issues/1601 reference]. | |||
[[File:CleanTip-Cartridge-Contacts.jpg|none|300px|thumb| Clean contacts with IPA]] | |||
2. Then install the cartridge/tip, re-install the screw on top, and heat the tip a few times to 350 °C for a couple minutes. | |||
3. If you don't have a multimeter, then after you initially heat the tips a few times to 350 °C. Then change the temperature to the [[Pinecil_Guides_to_Soldering#What_temperature_should_I_use? | correct range]] for the solder you purchased and check if it melts solder (add a little solder to the tip end also before storing it). | |||
4. If you have a multimeter (dmm) and have an issue with the cartridge/tip, then you can measure when the tip is cold (room temperature and unused a couple hours). Set dmm to ohms and the correct range, and measure the 2 silver contacts on the rear white end. | |||
5. Warning: warm tips change the measurements (measure only when cold and unused for a couple hours). | |||
* Short tips could be ~6.2-6.5 ohms | |||
* Normal length tips could be ~7.8-8.3 ohms | |||
* If the tip measures OL (open loop) it is defective. Also a tip that is way off spec, e.g., 10 ohm will cause strange behavior on temperature readings. | |||
* If you measure when it's even a little warm, the ohms will be much higher; this is normal and how the cartridge/tip works. | |||
=== Why have different tips? === | === Why have different tips? === | ||
* See the [[Pinecil_Guides_to_Soldering#General_soldering_guides|Soldering Guides]] for usage of different tips and how to keep tips clean. | * See the [[Pinecil_Guides_to_Soldering#General_soldering_guides|Soldering Guides]] for usage of different tips and how to keep tips clean. | ||
=== How does the tip work? === | === How does the tip work? === | ||
# | |||
# A thermocouple is integrated into the end of the tip itself; advantage is every new tip includes a brand new thermocouple and it's a more accurate measurement of the temperature. | |||
# Pinecil tips are considered [https://www.youtube.com/watch?v=kmq769_ed9w newer tech style]. This is more accurate compared to older style Irons where the thermocouple is in the handle and much farther from the end of the tip. | # Pinecil tips are considered [https://www.youtube.com/watch?v=kmq769_ed9w newer tech style]. This is more accurate compared to older style Irons where the thermocouple is in the handle and much farther from the end of the tip. | ||
# [https://www.youtube.com/watch?v=v7NUi88Lxi8 Science: what is a thermocouple?] | # [https://www.youtube.com/watch?v=v7NUi88Lxi8 Science: what is a thermocouple?] | ||
# [https://ralim.github.io/IronOS/Temperature/ How is Tip Temperature measured in Ralim's IronOS firmware?] | # [https://ralim.github.io/IronOS/Temperature/ How is Tip Temperature measured in Ralim's IronOS firmware?] | ||
# [http://www.minidso.com/forum.php?mod=viewthread&tid=1110 What does the inside of a ts100 tip look like?] | # [https://web.archive.org/web/20230422152233/http://www.minidso.com/forum.php?mod=viewthread&tid=1110 What does the inside of a ts100 tip look like?] | ||
== Pine Store | == Pine Store Tip Options == | ||
=== I. Short tips === | === I. Short tips === | ||
{{Note|'''Pay attention to the length!''' Pine Store sells two different lengths.}} | {{Note|'''Pay attention to the length in your cart!''' Pine Store sells two different lengths.}} | ||
# All new Pinecil V2 soldering irons include a single Pine64 newly designed Short tip (ST-B2 conical). | # All new Pinecil V2 soldering irons include a single Pine64 newly designed Short tip (ST-B2 conical). | ||
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* Heating formula: P = IV = I^2 * R = V^2 / R (⇧ watts = ⇧ faster heating) | * Heating formula: P = IV = I^2 * R = V^2 / R (⇧ watts = ⇧ faster heating) | ||
20V @8Ω tip=50W; @6.2Ω tip=64.5W | |||
24V @8Ω tip=72W; @6.2Ω tip=92.9W | |||
24V @8Ω tip=72W; @6.2Ω tip=92.9W | |||
=== II. Normal tips === | === II. Normal tips === | ||
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[[File:Pinecil-Tip-SetFine-1.jpg|none|250px|thumb| Fine Set, Normal length]] | [[File:Pinecil-Tip-SetFine-1.jpg|none|250px|thumb| Fine Set, Normal length]] | ||
[[File:Pinecil-Tip-SetGross-1.jpg|none|250px|thumb| Gross Set, Normal length]] | [[File:Pinecil-Tip-SetGross-1.jpg|none|250px|thumb| Gross Set, Normal length]] | ||
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=== Other compatible tips === | === Other compatible tips === | ||
[[File:TS100-Tip-Styles.png|300px|thumb|none| BC3 and JL02 are not sold by Pine Store, ~8.0 Ω]] | |||
'''Common resistances for tips:''' | '''Common resistances for tips:''' | ||
[[File:TipResistance2.png|left|200px]] | [[File:TipResistance2.png|left|200px]] | ||
* | * PINE64 designed short tip 6.2 Ω, shorter length, only at pine64.com. | ||
* no brand long tip 7.9 Ω, | * no brand long tip 7.9 Ω, normal length ts100 style | ||
* Miniware long tip 8.0 Ω, | * Miniware long tip 8.0 Ω, normal length ts100 style | ||
* no brand long tip 8.3 Ω, | * no brand long tip 8.3 Ω, normal length ts100 style | ||
'''Compare different soldering iron sizes:''' | |||
'''Compare | |||
This photo shows common irons to compare the distance from the finger grip to the work surface. | This photo shows common irons to compare the distance from the finger grip to the work surface. | ||
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[[File:Compare-iron-tip-sizes.jpg|500px]] | [[File:Compare-iron-tip-sizes.jpg|500px]] | ||
[[File:Compare-PinecilV2-iron-sizes.png|500px]] | [[File:Compare-PinecilV2-iron-sizes.png|500px]] | ||
== Go back to Pinecil article == | == Go back to Pinecil article == |
Latest revision as of 01:10, 30 June 2024
This article is about the available tips for the Pinecil and how they work.
Pinecil Tips
What kind of tips work?
- Pinecil V2 uses both Pine64 designed Short Tips (ST line, 6.2-6.5 Ω) and TS-100 Normal length compatible tips (TS line, ~8.0 Ω).
- Presently, the V1 uses the normal length TS100 style tips (~8.0 ohms) until a firmware update enables manually switching the tip types. Check Github Ralim's IronOS here for progress on this.
- Unplug before swapping tips as the V2 automatically detects the tip resistance at boot-up and...it is safer.
How to increase tip life?
- Typically, lead solder uses a working temperature of ~300°C-320°C and no-lead solder ~350°C-365°C (check the temperature charts in the soldering guides or google it for your specific solder type, it varies). Always start lower than needed and increase ~5°C at a time until you reach a good working temperature. If you want your tips to last longer, use the lowest temperatures you can comfortably work at. Thicker wires, etc., may need more (adjust).
- The open source firmware may allow the use of temperatures past the manufacturer limit for tips, but that doesn't mean you should. That said, people have reported using the boost feature at 5-15 second burst to >430°C and have been perfectly fine (TS100 and Pine64 tips are readily available at reasonable prices and some people prefer convenience of higher temperatures and accept they might replace tips more frequently as a trade-off).
- If the tips are not too expensive, some keep spare tips and boost to high temperatures freely for convenience, and simply replace the tip when it loses the plating or the tip fails (common sign of tip failure is tip plating is gone, has pit holes, or a multimeter measures OL infinite ohms across the 2 silver contacts on the cold end of the tip).
- Check out this Soldering Guide article for more details on best practices for use and maintenance of tips.
How to check new tips?
1. Remove the screw on top, then remove the cartridge. Clean new cartridges/tips with isopropyl alcohol (IPA) to remove any factory residue before installing (avoid strange behavior). If you have no IPA, use a dry clean towel, especially the white end with the two silver contacts (do not use water; it could get into the seam line on the white end). This often resolves issues with glitchy temperatures or random no-tip symbol from poor or dirty electric contact reference.
2. Then install the cartridge/tip, re-install the screw on top, and heat the tip a few times to 350 °C for a couple minutes.
3. If you don't have a multimeter, then after you initially heat the tips a few times to 350 °C. Then change the temperature to the correct range for the solder you purchased and check if it melts solder (add a little solder to the tip end also before storing it).
4. If you have a multimeter (dmm) and have an issue with the cartridge/tip, then you can measure when the tip is cold (room temperature and unused a couple hours). Set dmm to ohms and the correct range, and measure the 2 silver contacts on the rear white end.
5. Warning: warm tips change the measurements (measure only when cold and unused for a couple hours).
* Short tips could be ~6.2-6.5 ohms * Normal length tips could be ~7.8-8.3 ohms * If the tip measures OL (open loop) it is defective. Also a tip that is way off spec, e.g., 10 ohm will cause strange behavior on temperature readings. * If you measure when it's even a little warm, the ohms will be much higher; this is normal and how the cartridge/tip works.
Why have different tips?
- See the Soldering Guides for usage of different tips and how to keep tips clean.
How does the tip work?
- A thermocouple is integrated into the end of the tip itself; advantage is every new tip includes a brand new thermocouple and it's a more accurate measurement of the temperature.
- Pinecil tips are considered newer tech style. This is more accurate compared to older style Irons where the thermocouple is in the handle and much farther from the end of the tip.
- Science: what is a thermocouple?
- How is Tip Temperature measured in Ralim's IronOS firmware?
- What does the inside of a ts100 tip look like?
Pine Store Tip Options
I. Short tips
- All new Pinecil V2 soldering irons include a single Pine64 newly designed Short tip (ST-B2 conical).
- The discontinued V1 came with a longer normal length TS-B2 conical tip.
- Pine Store carries 4-Packs of Pine64 designed Short Tips (only Pine64 makes the short style presently)
- Short tips Fine link, white box (~6.2-6.5 Ω)
- Short tips Gross link, white box (~6.2-6.5 Ω)
- Pine64 Short tip packs are lower resistance/ohms which means higher performance and better ergonomics. Many professional irons have shorter tips for more control while soldering.
- The shorter tip is designed for higher performance and requires more power than longer traditional TS100 tips
- Recommend using minimum of usb-C PD65W-3.25A-20V or higher voltage charger when using Short tips (short tip draws more power than longer tips because of the lower ohms).
- For example with a PD65W-20V charger, the maximum watts with a standard 8 ohm tip is 50W, whereas the max watt with a 6.2 ohm tip is ~64 watts (watts/volts calculator).
- Heating formula: P = IV = I^2 * R = V^2 / R (⇧ watts = ⇧ faster heating)
20V @8Ω tip=50W; @6.2Ω tip=64.5W 24V @8Ω tip=72W; @6.2Ω tip=92.9W
II. Normal tips
- Normal Length Gross Set here (~8.0 Ω)
- Normal Length Fine Set here (~8.0 Ω)
Other compatible tips
Common resistances for tips:
- PINE64 designed short tip 6.2 Ω, shorter length, only at pine64.com.
- no brand long tip 7.9 Ω, normal length ts100 style
- Miniware long tip 8.0 Ω, normal length ts100 style
- no brand long tip 8.3 Ω, normal length ts100 style
Compare different soldering iron sizes:
This photo shows common irons to compare the distance from the finger grip to the work surface.
Go back to Pinecil article
Go back to Pinecil article.