✓

Safe Match

Mixed Data One side verified • See methodology → ✓ Generator ○ Device

Yes, the Anker SOLIX F3800 can run a Dehumidifier (70 Pint)

Q: Can the Anker SOLIX F3800 power a Dehumidifier (70 Pint)?

Yes. The Anker SOLIX F3800 provides 6000W running / 9000W surge. The Dehumidifier (70 Pint) needs 1075W / 4169W (including 25% buffer). That leaves 4925W of running headroom and 4831W of surge margin.

Q: How long will the Anker SOLIX F3800 run a Dehumidifier (70 Pint)?

Approximately 3.1 hours, based on the Dehumidifier (70 Pint)'s 860W draw and the Anker SOLIX F3800's 3840Wh capacity (70% usable after real-world losses).

This pairing clears the safety headroom. Required ~1075W running and 4169W surge; the Anker SOLIX F3800 is rated 6000W / 9000W.

Power Margin Analysis

6000W / 9000W Capacity

Running 4925W headroom

1075W required

Surge 4831W headroom

4169W required

Check on Amazon Official Site

Decision Gate Waterfall

Same decision gates as the engine: voltage, running, surge. Runtime is shown as operational context.

Voltage Gate

PASS

Device output type must match generator output.

120V required -> 120V/240V available

Running Gate

PASS

Continuous draw with safety buffer applied.

1,075W required -> 6,000W available (4,925W headroom)

Required 1,075W required

Available 6,000W

Surge Gate

PASS

Startup peak with safety buffer applied.

4,169W required -> 9,000W available (4,831W headroom)

Required 4,169W required

Available 9,000W

With Soft-Start

PASS

Alternative startup path with reduced inrush.

1,876W required -> 9,000W available (7,124W headroom)

Required 1,876W

Available 9,000W

Runtime Insight

INFO

Runtime context only. It does not change the electrical compatibility verdict.

Continuous estimate: 3.1h

Device profile reference: up to 24h per day.

Power bars show required versus available output for each gate.

View full compatibility report

Decision Snapshot

Quick compatibility, required headroom, and model-specific context at a glance.

⚡

6000W

Running Power

🔋

3840Wh

Capacity

⏱️

~3.1h

Est. Runtime

☀️

2400W

Solar Input

Quick Compatibility Check

1 Running headroom: target 1075W; generator provides 6000W.
2 Surge headroom: target 4169W; generator provides 9000W.
3 Tip: leave headroom for startup spikes and warm conditions.

Model-Specific Results

3 of 3 models are SAFE or TIGHT. Most demanding model: Midea EasyDry MDP70SR71 (70 Pint) (3,335W surge).

Model	Running	Surge	Verdict	Runtime	Source
Midea EasyDry MDP70SR71 (70 Pint)	690W	3,335W	Safe	~3.9h	OEM Manual
Show expert analysis Technical: Voltage: 120V AC required. Running load: 690W. Surge: 3335W at startup (compressor-driven). Only power stations with inverter surge capacity ≥3335W and continuous output ≥690W are candidates. Field note: Verify the power station's surge window duration. Short-duration surge ratings may not accommodate refrigerant compressor startup transients reliably. Can I run this dehumidifier on a portable power station overnight? Only if your power source can supply at least 690W continuous and 3335W surge at 120V. It depends on the station's surge capacity and battery size.
Midea EasyDry MDP70PR71 with Pump (70 Pint)	690W	3,335W	Safe	~3.9h	OEM Manual
Show expert analysis Technical: Running load: 690 W. Surge demand: 3,335 W at compressor start. Requires 120V AC output. Power station must deliver the full surge envelope without tripping overcurrent protection. Field note: Ensure your power station's inverter can handle the 3,335 W surge without shutdown. Verify outlet capacity exceeds continuous draw. Can I run this dehumidifier on a portable power station? Only if your power source can supply at least 690W continuous and 3335W surge at 120V. Most portable units cannot meet the surge requirement.
Haier HEN70ETF (70 Pint)	860W	2,580W	Safe	~3.1h	OEM Verified
Show expert analysis Technical: Running load: 860W. Surge: 2580W at startup. Requires 120V AC output. Power station must sustain 860W continuous and handle 2580W compressor inrush without tripping. Field note: Size the power station to at least 125% of running load (1075W minimum output) to avoid nuisance shutdowns during concurrent household draw. Can I run this dehumidifier overnight on a portable power station? Only if your power source can supply at least 860W continuous and 2580W surge at 120V. Most portable units lack sufficient capacity for full-day basement moisture control.

How This Pairing Performs Across Our Database

This unit ranks #15 of 17 compatible generators for this device by buffered margin (Overkill class).

How Dehumidifier (70 Pint) Performs Across 33 Tested Generators

17 of 33 generators are SAFE+TIGHT for Dehumidifier (70 Pint).

17 Safe+Tight

Safe 12 (36%)

Tight 5 (15%)

Soft Start 6 (18%)

Fail 10 (30%)

Power Comparison: Anker SOLIX F3800 vs Top Alternatives for Dehumidifier (70 Pint)

Anker SOLIX F3800 Safe Overkill Current unit

Running

6,000W

Surge

9,000W

Bluetti AC200L Tight Overkill

Running

2,400W

Surge

3,600W

Goal Zero Yeti 1500X Tight Balanced

Running

2,000W

Surge

3,500W

EcoFlow DELTA 3 Plus Tight Balanced

Running

1,800W

Surge

3,600W

Fit class uses buffered needs (running and surge) for this device.

Specs & Surge Analysis

Heating & Cooling

Dehumidifier (70 Pint)

Basement Moisture Control

Select Your Model:

Midea EasyDry MDP70SR71 (70 Pint)

690W / 3335W

OEM

Midea EasyDry MDP70PR71 with Pump (70 Pint)

690W / 3335W

OEM

Haier HEN70ETF (70 Pint)

860W / 2580W

OEM

860W

Running

3335W

Surge

120V

Required

True Surge™ Analysis

Safety Buffer: +25%

Running Power Usage 18% Utilization

1075W required 6000W Capacity

4925W headroom

Surge/Startup Peak 46% Utilization

4169W required 9000W Capacity

4831W headroom

Voltage Match 120V ↔ 120V/240V ✓

⚠️ Before You Buy: Connection Check Click to read details

Installation warning

These systems are often hardwired to a home panel. To run them from a portable station, you may need a transfer switch installed by an electrician. You cannot just plug it in.

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Free Tools

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Calculator

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Surge Calculator

Convert LRA to surge watts

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Generator Insights

The 9000W surge rating can handle typical compressor-based appliances like central air conditioners, well pumps, and refrigerators during startup. This capacity can support multiple simultaneous high-draw devices once running loads stabilize. Expect reliable operation for tools, HVAC systems, and other inductive loads that demand short-duration power spikes.

This unit employs LFP chemistry with a 3840Wh capacity, designed for stable discharge under high-demand conditions. The architecture supports both sustained and transient loads within rated limits. Source: Anker SOLIX F3800 User Manual v1.1 (Specifications) (OEM documentation).

Extend Runtime with Solar

Keep your Dehumidifier (70 Pint) running with solar • MPPT: 11– 60V • Max: 2400W

Official

Anker

100W Panel

1 Hour Sun =

+0.1h per sun hour

MC4 -> XT60

Full in ~54.9h

Adapter required: MC4 -> XT60.

View solar analysis →

Smart Value

EcoFlow

400W Panel

1 Hour Sun =

+0.3h per sun hour

MC4 -> XT60

Full in ~13.7h

Adapter required: MC4 -> XT60.

View solar analysis →

Smart Value

EcoFlow

400W Panel

1 Hour Sun =

+0.3h per sun hour

MC4 -> XT60

Full in ~13.7h

Adapter required: MC4 -> XT60.

View solar analysis →

Technical Analysis

Spec-Based • No Guarantees

Technical Breakdown

Running load: 860 W continuous. Surge demand: 3335 W at compressor startup. Voltage: 120 V AC required. Power station must handle the surge margin and sustain the load for the intended duration.

Expected Behavior

Estimated runtime: ~3.1h. Operates 24 hours per day drawing approximately 20640 Wh daily. Compressor cycles cause brief high-current transients during startup then settles to steady draw.

Field Note

Verify the power station inverter rating exceeds 3335 W surge capacity. Undersized units will trip during compressor kick-in.

Frequently Asked Questions

Can the Anker SOLIX F3800 power a Dehumidifier (70 Pint)?

Yes. The Anker SOLIX F3800 provides 6000W running / 9000W surge. The Dehumidifier (70 Pint) needs 1075W / 4169W (including 25% buffer). That leaves 4925W of running headroom and 4831W of surge margin.

How long will the Anker SOLIX F3800 run a Dehumidifier (70 Pint)?

Approximately 3.1 hours, based on the Dehumidifier (70 Pint)'s 860W draw and the Anker SOLIX F3800's 3840Wh capacity (70% usable after real-world losses).

What Else Can You Run?

With 2465W allocated to the Dehumidifier (70 Pint), the Anker SOLIX F3800 still has ~1475W of margin. These devices could run simultaneously:

🔥

Space Heater (Eco)

750W

💡

LED Lamp

10W

🌀

Box Fan (Medium)

60W

📺

55' LED TV

80W

💻

MacBook Air/Pro

65W

🫖

Electric Kettle

1500W

Power Tip: To get the most out of your Anker SOLIX F3800, keep it in a well-ventilated area. Extreme temperatures can slightly reduce the efficiency of the LFP/NMC cells.

Compare all 33 generators for the Dehumidifier (70 Pint)

Ranked by budget, runtime, and overall compatibility.

See full ranking

Technical Sourcing & Verification

ID: anker-solix-f3800-dehumidifier-70pint

🏛️ Device Data Source

Engineering Est. Safety Factor Applied

Derived from variant list (max of variants). Running worst case = Haier HEN70ETF (860W). Surge worst case = Midea EasyDry MDP70SR71 (3335W).

⚡ Generator Specs Source

OEM Verified

Anker SOLIX F3800 User Manual v1.1 (Specifications)

Methodology informed by US Department of Energy (DOE) & EIA references where applicable. Our methodology →

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