Ryobi 18V One+ PSBID01 Vs Ryobi 18V One+ PBLID02

Ryobi PSBID01 Angle 5

Ryobi PSBID01

Quick take

The Ryobi 18V One+ PBLID02 and Ryobi 18V One+ PSBID02 are designed for different users. The PBLID02 is faster under load, generates more torque, and has four drive modes for versatility. However, it is heavy. The PSBID01 is a hybrid 18V impact driver designed to be compact like a 12V impact driver but with more performance. Accordingly, it weighs considerably less and fits more easily into tight areas.

Brand Ryobi
Platform 18V One+
Motor Brushless
Tested torque in-lbs 568.8
IPM 3,800.0
Drive modes 1
Collet 1/4-inch hex
Same as PSBID01B
Brand Ryobi
Platform 18V One+
Motor Brushless
Tested torque in-lbs 609.0
IPM 4,000.0
Drive modes 4
Collet 1/4-inch hex
Same as PBLID02B

Editorial opinion

Rating

3.20 / 5 stars

Methodology used: Heavy duty

Pros

  • Exceptionally lightweight
  • Long battery run time
  • Brushless motor improves durability

Cons

  • Single drive mode limits versatility
  • Driving performance for heavy-duty tasks

Rating

4.11 / 5 stars

Methodology used: Heavy duty

Pros

  • Exceptional driving speed
  • Several drive modes improve versatility
  • Brushless motor
  • Easy-insert collet

Cons

  • Battery run time
  • Footprint is bulky
  • Heavy

Global rankings

21 models tested

TestResultRank
Driving speed (sec.)26.618
Torque (in-lbs)568.815
Battery run time (min.)58.02
RPM2,678.018
Bare weight (lbs)1.854
Impacting noise (dBA)101.111
TestResultRank
Driving speed (sec.)14.75
Torque (in-lbs)609.012
Battery run time (min.)30.015
RPM2,966.013
Bare weight (lbs)2.3218
Impacting noise (dBA)96.94

Recommended configuration

PSBID01K

Includes (2) One+ 18V 1.5Ah battery

Lab results

Torque

Ryobi PSBID01 Torquemeter
Ryobi PSBID01 Torque Charts

Max torque drive mode 1 (in-lbs): 568.8
Max torque drive mode 2 (in-lbs): N/A
Max torque drive mode 3 (in-lbs): N/A
Max torque drive mode 4 (in-lbs): N/A

The PSBID01 is branded as a compact impact driver, so we know out of the gate that it won’t win any podium spots for torque.That said, the PSBID01 is moderately powerful for its size. Its torque profile sits between light-duty 12V models that are perfect for around the home and woodworking and heavier-duty 18V impact drivers most suitable for driving big screws and fasteners.

Compare torque test results

Torque

Ryobi PBLID02Torquemeter
Ryobi PBLID02 Torque Charts

Max torque drive mode 1 (in-lbs): 609.0
Max torque drive mode 2 (in-lbs): 457.2
Max torque drive mode 3 (in-lbs): 284.4
Max torque drive mode 4 (in-lbs): N/A

The PBLID02 is moderately powerful, as our torque tests demonstrated. In practice, we didn’t encounter a driving task the PBLID02 couldn’t complete, including driving long and big lag bolts into treated lumber. This impact driver doesn’t offer high RPMs, leaving its torque output to do most of the heavy lifting in demanding tasks.

Several closely-priced alternatives offer higher torque output, including the Milwaukee M18 Fuel 2953-20, Dewalt 20V Max XR DCF887, and Dewalt 20V Max XR DCF845.

Compare torque test results

RPM

Ryobi PSBID01 RPM Charts

Max RPM drive mode 1 (fwd.): 2,678.0
Max RPM drive mode 2 (fwd.): N/A
Max RPM drive mode 3 (fwd.): N/A
Max RPM drive mode 4 (fwd.): N/A
Max RPM drive mode 1 (rev.): 2,612.0
Max RPM drive mode 2 (rev.): N/A
Max RPM drive mode 3 (rev.): N/A
Max RPM drive mode 4 (rev.): N/A

The PSBID01 turned in below-average RPM results in our tachometer testing. Whether this performance is a pro or con depends on your intended usage.

We find that lower RPM models more easily set screws than higher RPM impact drivers that ramp RPMs quickly and mostly spin out on the work surface.

On the other hand, higher RPM impact drivers finish driving tasks more quickly, as evidenced in our driving speed tests.

With its lower-than-average RPM, the PSBID01 is better suited to medium-duty tasks, which are the most frequent jobs for homeowners.

Compare RPM test results

RPM

Ryobi PBLID02 RPM Charts

Max RPM drive mode 1 (fwd.): 2,966.0
Max RPM drive mode 2 (fwd.): 1,832.0
Max RPM drive mode 3 (fwd.): 915.0
Max RPM drive mode 4 (fwd.): 1,058.0
Max RPM drive mode 1 (rev.): 2,969.0
Max RPM drive mode 2 (rev.): 1,935.0
Max RPM drive mode 3 (rev.): 931.0
Max RPM drive mode 4 (rev.): 1,940.0

The PBLID02 generated middle-of-the-pack max RPM on our contact tachometer. However, the performance on paper undersells its driving performance. Impact drivers with similar RPM and torque profiles couldn’t match the PBLID02’s results in our heavy-duty driving speed tests.

The three speed modes have no significant RPM difference between forward and reverse. But the assist mode offers a vastly different RPM profile depending on the forward or reverse setting selected. The assist mode in reverse nearly doubles the RPM output compared to the forward setting to quickly remove screws from your work material after the start and stop mechanism completes its cycle.

Compare RPM test results

Driving speed

GRK total driving time forward (sec.): 26.6
GRK average driving time forward (sec.): 5.3
GRK total driving time reverse (sec.): 19.6
GRK average driving time reverse (sec.): 3.9

The PSBID01 isn’t the impact driver of choice if you frequently drive decking screws, lag bolts, and other big fasteners, as demonstrated in our driving speed tests. It has sufficient torque to handle any task we threw at it, but the PSBID01 bogs down considerably with longer, bigger fasteners.

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Driving speed

GRK total driving time forward (sec.): 14.7
GRK average driving time forward (sec.): 2.9
GRK total driving time reverse (sec.): 11.0
GRK average driving time reverse (sec.): 2.2

While it doesn’t have the highest torque or RPMs, the PBLID02 performed well in our driving speed tests, finishing near the top of the pack driving GRK RSS screws. The PBLID02 similarly shines at driving decking screws and shorter common screw sizes used in DIY projects and medium-duty tasks around the home.

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Drive modes

Drive modes: 1
Drive mode 1:  High speed 
Drive mode 2:  N/A 
Drive mode 3:  N/A 
Drive mode 4:  N/A 
Variable speed trigger: Yes

The PSBID01 isn’t a cheap impact driver or an expensive one. But where it sits at its price point, it falls far behind the competition regarding its single drive mode. Most similarly-priced impact drivers offer three or more drive modes to vastly improve driving performance across light to heavy-duty tasks.

The lacking drive modes is a critical letdown to consider if needing an impact driver that finishes screws accurately with a consistent recess. No high-speed drive mode is ideal for such jobs, but the PSBID01 finishes screws better than competing models set to the highest speed mode.

But impact drivers with several speed and specialty driving modes are highly accurate, and most are subtle enough to consistently recess screws into all material densities, even MDF and drywall.

The Makita 18V LXT XDT14Z and Dewalt 20V Max XR DCF845 are similarly-priced alternatives with several helpful drive modes.

Drive modes

Drive modes: 4
Drive mode 1:  High speed 
Drive mode 2:  Medium speed 
Drive mode 3:  Low speed 
Drive mode 4:  Assist 
Variable speed trigger: Yes

There are four drive modes on the PBLID02, significantly improving its driving versatility. Drive mode 1 offers the highest torque and RPM output and is ideal for rapidly driving lag bolts, decking screws, and other big fasteners.

Drive mode 2 still offers solid driving performance but is better suited to driving shorter screws into dimensional lumber and soft materials such as MDF. We could recess screws in all material densities in drive mode 2, though not at a consistent depth.

Drive mode 3 most accurately recesses screws and is the best setting if demanding a consistently perfect recess. For light and medium-duty jobs, we found a sweet spot of using drive mode 3 or 2 to drive screws quickly, then switching over to drive mode 3 for a consistent recess.

The PBLID02 also includes an assist mode, though we didn’t find it any better than the other drive modes in the forward setting. However, the assist mode is helpful in the reverse setting to bust loose stubborn screws and nuts. When holding the trigger, the collet starts and stops several times and then ramps up the RPM. This assist setting nicely helped to avoid stripping screw heads.

There are no other specialty drive modes that high-end impact drivers include, such as self-tapping, wood, and bolt-loosening drive modes. Several Milwaukee impact drivers have self-tapping options, and some Makita impact drivers include specialty wood and bolt-loosening modes.

Collet

Ryobi PSBID01 Collet Closeup

Collet size: 1/4-inch hex
Quick-change collet: Yes
Bit-eject collet: Yes
Easy-insert collet: Yes

One-handed bit changes are easy with the PSBID01, thanks to the easy-insert and bit-eject mechanisms built into the collet. The bit-eject mechanism jettisons bits more powerfully than other impact drivers, sometimes resulting in not catching the bits. But after a few rounds of usage, catching the bit is easy and isn’t an issue.

Collet

Ryobi PBLID02 Collet Closeup

Collet size: 1/4-inch hex
Quick-change collet: Yes
Bit-eject collet: Yes
Easy-insert collet: Yes

The PBOID02 includes an easy insert collet that is a breeze to insert bits with one hand, great for convenience. A bit-eject collet is also included, although the jettison force may be slightly overpowered for some tastes. We found ourselves jettisoning the bit and frequently missing catching it. But after a few rounds of usage, catching the bit is easy and isn’t an issue.

Motor

Motor: Brushless
Impacts per minute: 3,800.0

The PSBID01 includes a brushless motor that improves its longevity and efficiency over cheap brushed impact drivers where durability is a concern. Including a brushless motor partly explains the outstanding battery run time performance we experienced in our lab.

But consider that the advertised 3800.0 impacts per minute is middle of the pack, partly explaining why the PSBID01 underperforms premium competitors in most driving tests.

Motor

Motor: Brushless
Impacts per minute: 4,000.0

One standout feature of the PBLID02 is that it includes a brushless motor. Brushless motors are more efficient and durable and provide better battery run time than brushed motors.

The brushless motor and the high 4000.0 impacts per minute partly explain why the PBLID02 shined in our driving speed tests.

Battery run time

Power type: Cordless
Battery run time (min.): 58.0
Battery tested: 18V One+ High Performance 2Ah (PBP003)
Voltage: 18

The PSBID01 is a battery run time champ, as demonstrated by hitting nearly 1 hour of no-load battery run time in our tests.

We tested battery run time with the 2Ah battery version. With an 18V One+ 4Ah battery, expect the battery run time to continue outperforming competing models running the same Ah setup.

In later updates, we’ll test battery run time under load to see if the results hold.

Compare battery test results

Battery run time

Power type: Cordless
Battery run time (min.): 30.0
Battery tested: 18V One+ High Performance 2Ah (PBP003)
Voltage: 18

One letdown of the PBLID02 was its battery run time in our testing. Several cheaper Ryobi impact drivers offer better run times. But consider that the tested no-load run time of 30 minutes is still long enough for most jobs around the home.

We tested battery run time with the 2Ah battery version. With an 18V One+ 4Ah or 6Ah battery, expect the battery run time to continue underperforming competing models running the same Ah setup, albeit run time increases significantly.

Compare battery test results

Charging time

Ryobi 18V Fuel Gauge

Charger tested: Ryobi 18V One+ (PCG002)
Charging time 2Ah battery (min.): 49.0
Charging time 2.5Ah battery (min.): Not tested
Charging time 4Ah battery (min.): 117.0
Charging time 5Ah battery (min.): Not tested
Charging time per Ah (min.): 26.9
Fuel gauge: On battery

The 18V charger included with most Ryobi kits (model PCG002) charges batteries moderately slower than other brands.

Our tests took 49.0 and 117.0 minutes to charge a Ryobi 18V One+ 2Ah and 4Ah battery, respectively. Several other brands we’ve tested take approximately 20 minutes per Ah, whereas the Ryobi charger takes at least 24.5 minutes per Ah.

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Charging time

Ryobi 18V Fuel Gauge

Charger tested: Ryobi 18V One+ (PCG002)
Charging time 2Ah battery (min.): 49.0
Charging time 2.5Ah battery (min.): Not tested
Charging time 4Ah battery (min.): 117.0
Charging time 5Ah battery (min.): Not tested
Charging time per Ah (min.): 26.9
Fuel gauge: On battery

The 18V charger included with most Ryobi kits (model PCG002) charges batteries moderately slower than other brands.

Our tests took 49.0 and 117.0 minutes to charge a Ryobi 18V One+ 2Ah and 4Ah battery, respectively. Several other brands we’ve tested take approximately 20 minutes per Ah, whereas the Ryobi charger takes at least 24.5 minutes per Ah.

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Design & ergonomics

Stands upright w/o battery: Yes
Stands upright w/ battery: Yes
Grip material: Rubber overgrip
Magnetic holder: No
Bit holder: No
Belt hook: Yes
Handle angle (deg.): 80.0
Head angle (deg.): 90.0

Design & ergonomics

Stands upright w/o battery: Yes
Stands upright w/ battery: Yes
Grip material: Rubber overgrip
Magnetic holder: No
Bit holder: No
Belt hook: Yes
Handle angle (deg.): 80.0
Head angle (deg.): 90.0

Weight

Ryobi PSBID01 On Scale

Bare weight (lbs): 1.85
Weight w/ 2Ah battery (lbs): 2.81
Weight w/ 2.5Ah battery (lbs):  Not tested
Weight w/ 4Ah battery (lbs): 3.49
Weight w/ 5Ah battery (lbs): Not tested

The PSBID01 is exceptionally lightweight in its bare tool form and with a battery, great for extended driving sessions where arm and hand fatigue can set in.

The working weight can differ significantly depending on the battery run in your setup, which is why we tested the weight in different configurations. To keep it lightweight, we recommend combining the PSBID01 with Ryobi’s 18V One+ 2Ah battery for a good balance of performance and weight.

If weight is less of a concern, pair the PSBID01 with Ryobi’s 18V One+ 4Ah battery for a longer run time and improved driving performance. With this battery setup, the PSBID01 impressively beats the weight of more expensive models with a larger capacity 5Ah battery.

Compare weight test results

Weight

Ryobi PBLID02 On Scale

Bare weight (lbs): 2.32
Weight w/ 2Ah battery (lbs): 3.28
Weight w/ 2.5Ah battery (lbs):  Not tested
Weight w/ 4Ah battery (lbs): 3.96
Weight w/ 5Ah battery (lbs): Not tested

The PBLID02 is a heavy impact driver, so it’s not ideal for long driving sessions where arm fatigue sets in.

The working weight can differ significantly depending on the battery run in your setup, which is why we tested the weight in different configurations. To keep it lightweight, we recommend combining the PBLID02 with Ryobi’s 18V One+ 2Ah battery for a good balance of performance and weight.

If weight is less of a concern, pair the PBLID02 with Ryobi’s 18V One+ 4Ah battery for a longer run time and improved driving performance.The Makita 18V LXT XDT13Z or Makita 18V LXT XDT14Z are solid alternatives that are comparably-priced impact drivers and far lighter.

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Footprint

Ryobi PSBID01 Footprint1
Ryobi PSBID01 Footprint2

Max height (bare tool, in.): 7.500
Max width (bare tool, in.): 3.000
Collet to back length (in.): 5.250
Base length (bare tool, in.): 5.125
Base width (bare tool, in.): 3.000
Trigger circumference (in.): 6.625
Handle circumference (in.): 5.250

Context is essential when discussing the PSBID01 and the fact that Ryobi brands it as a compact impact driver. It is highly compact and incredibly nimble compared to budget impact drivers and within the Ryobi lineup. The PSBID01 is one of the smallest footprint impact drivers Ryobi offers.

But the compact size can’t compete with higher-priced models from other brands, mostly when comparing the collet-to-back length and the length of the base, both of which are relatively large. This footprint limits the tight spaces the PSBID01 can fit into compared to more expensive models.

The Dewalt 20V Atomic DCF850 and Milwaukee M18 Fuel 2953-20 are two of the smallest and most agile heavy-duty impact drivers we’ve come across.

Compare footprint test results

Footprint

Ryobi PBLID02 Footprint1
Ryobi PBLID02 Footprint2

Max height (bare tool, in.): 7.500
Max width (bare tool, in.): 3.000
Collet to back length (in.): 5.625
Base length (bare tool, in.): 5.125
Base width (bare tool, in.): 3.000
Trigger circumference (in.): 6.500
Handle circumference (in.): 5.250

Most Ryobi impact drivers have a bulky footprint, and that’s no different with the PBLID02. Notably, the base is more prominent than many similarly-priced impact drivers.

Context is important when discussing the length. The collet-to-back length isn’t as oversized as many Ryobi models that are incredibly large, though it’s not as compact as impact drivers from other brands.

So, the PBLID02 better reaches into tight spaces than other Ryobi models but doesn’t match the clearances possible looking to other brands, as demonstrated in our interior clearance tests below.

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Driving clearance

Min. interior width clearance (in.): 8.000
Min. top edge clearance (in.): 1.125
Min. interior 45-deg. clearance (in.): 6.500

We don’t recommend the PSBID01 if you want an impact driver that is agile enough to fit into tight spaces and clearances. The footprint is too long from tip to back and on the base.

However, as we’ve discussed already, context is vital. The PSBID01 turned in some of the best results of any Ryobi model tested in our interior clearance tests. It is a standout pick for one of the most agile Ryobi impact drivers available.

Compare driving clearance test results

Driving clearance

Min. interior width clearance (in.): 8.250
Min. top edge clearance (in.): 1.250
Min. interior 45-deg. clearance (in.): 6.500

We don’t recommend the PBLID02 if you consistently drive fasteners in tight spaces. A sub-compact or smaller-footprint compact impact driver can squeeze into tighter spaces.

The long collet-to-back length and extensive base limit the tight spaces it can fit into and the restricted areas it can fit through.

Compare driving clearance test results

Noise

PSBID01 Impact Driver Noise Chart

Max noise no load (dBA): 82.9
Max impacting noise (dBA): 101.1

The PSBID01 is moderately loud with no load but is louder than most models in our test fleet under impact. The latter performance when impacting is more critical since the impacting noise of any similar tool is harmful with prolonged exposure.

The Milwaukee M12 Fuel Surge 2551-20 and Milwaukee M18 Fuel Surge 2760-20 are other options to consider. Both are hydraulic impact drivers with much quieter impacts.

Compare noise test results

Noise

PBLID02 Impact Driver Noise Chart

Max noise no load (dBA): 86.1
Max impacting noise (dBA): 96.9

The PBLID02’s noise profile is a tale of two stories. When impacting, it is one of the quieter impact drivers we’ve tested, though all impact drivers are loud. The PBLID02 is one of the louder impact drivers when not under load. In practice, paying attention to the noise output when impacting is more critical.

The Milwaukee M12 Fuel Surge 2551-20 and Milwaukee M18 Fuel Surge 2760-20 are other options to consider. Both are hydraulic impact drivers with far quieter impacts.

Compare noise test results

Vibration

Max head vibration no load (m/s2): 33.0
Max grip vibration no load (m/s2): 3.0

Compare vibration test results

Vibration

Max head vibration no load (m/s2): 88.2
Max grip vibration no load (m/s2): 3.1

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Light

Ryobi PSBID01 Light
Ryobi PSBID01 Light Closeup

Light: Yes
Light on/off: No
Number of lights: 1
Light time delay (sec.): 15.0

The work light on the PSBID01 is relatively bright, though it doesn’t always directly illuminate the work surface at the tip. The work light shines upward from the base, a design that works well when driving 3-inch and shorter screws.

But as the screw length increases, the focus area of the light begins to illuminate slightly above the tip. The illumination won’t be a problem for most driving scenarios, but it’s worth considering if you frequently drive longer fasteners in darker environments.

The work light doesn’t act as a dedicated flashlight, like some Makita impact drivers, and can’t be disabled.

Light

Ryobi PBLID02 Light
Ryobi PBLID02 Light Closeup

Light: Yes
Light on/off: No
Number of lights: 1
Light time delay (sec.): 15.0

We’re not huge fans of the PBLID02’s work light, though it does the job in some scenarios. The light is set into the base and shines upward, whereas other models include the light around the collet and point it straight forward. The latter design approach centers the light directly where you’re driving screws.

When driving long screws with the impact driver further away from the work material, we found the PBLID02’s light was centered slightly above the screw being driven. This outcome was only an issue when driving 3-inch and longer screws.

There is no dedicated flashlight feature or the ability to disable the work light, which could minimally improve battery performance.

Warranty

Tool warranty (years): 3
Battery warranty (years): 90 day

Ryobi offers an exceptionally-long three-year warranty on its impact drivers. However, Ryobi’s battery warranties don’t come close to matching the length provided by most other manufacturers. Ryobi has a 90-day battery warranty, whereas other manufacturers commonly offer two to three years of coverage.

Warranty

Tool warranty (years): 3
Battery warranty (years): 90 day

Ryobi offers an exceptionally-long three-year warranty on its impact drivers. However, Ryobi’s battery warranties don’t come close to matching the length provided by most other manufacturers. Ryobi has a 90-day battery warranty, whereas other manufacturers commonly offer two to three years of coverage.

Picture of Nathan Hamilton
Nathan Hamilton
Nathan Hamilton is the founder of DIY Gear Reviews and a recognized expert in the home and DIY space. He has over 200 bylines covering topics such as power tools, hand tools, and woodworking. Nathan is the strategic director for DIY Gear Reviews, deciding everything from the content covered to designing the testing methodologies for lab-tested reviews. He can be emailed at nhamilton@diygearreviews.com.

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