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Electrical Heating Stage AEH1000/AEH1200/AEH1000S-HE

In stock
SKU# EIEH102S

Product Detail

InSitu Pro™ AEH1000, AEH1200 and AEH1000S-HE take resistive-heating electrical characterization to ultra-high temperature: RT to 1000 or 1200 °C at ±0.1 °C, with Max heating 150 °C/min and a controllable cooling rate. All three run a ceramic 20 × 20 mm stage in an atmosphere chamber with BNC ×4 out — and the AEH1000S-HE builds its stage from non-magnetic material for Hall-effect testing.

InSitu Pro AEH1000 and AEH1200 ultra-high-temperature electrical heating stages
AEH1000 / AEH1200 — fixed-probe UHT stages
InSitu Pro AEH1000 and AEH1200 with the cover removed showing the fixed probe deck
AEH1000 / AEH1200 — probe deck (cover removed)
InSitu Pro AEH1000S-HE non-magnetic Hall-capable electrical heating stage
AEH1000S-HE — non-magnetic Hall-capable stage
InSitu Pro AEH1000S-HE with the cover removed showing the four-probe deck
AEH1000S-HE — probe deck (cover removed)

Key features

  • RT to 1000 / 1200 °C, resistiveUltra-high-temperature resistive heating at ±0.1 °C stability — Max heating 150 °C/min, with a controllable cooling rate.
  • AEH1200: programmed control, long-term stableRT to 1200 °C, capable of precise programmed temperature control and long-term stable operation at ultra-high temperatures.
  • AEH1000S-HE: Hall-effect testingRT to 1000 °C with the stage material made of non-magnetic material — suitable for Hall-effect testing.
  • Probes per model, BNC ×4Fixed probe holders ×4 with tungsten or tungsten-rhenium probes (AEH1000 / AEH1200), or tungsten probes ×4 (AEH1000S-HE) — signals out on BNC ×4 to compatible electrical measurement instruments.
  • Reflection optics, JGS2 windowφ25 × 1 mm JGS2 top window (220–2500 nm, hand-removable) over the ceramic 20 × 20 mm stage; optional φ10 × 1 mm bottom window for the transmission path.
  • Grounded or floating stageOn all three models the sample-stage surface can be grounded or electrically floating, selectable to match the measurement configuration.

Product specifications

ParameterAEH1000AEH1200AEH1000S-HE
Model #AEH1000AEH1200AEH1000S-HE
SKU #EIEH1000EIEH1200EIEH1SHE
Heating MethodResistive heating
Temperature RangeRT ~ 1000 °CRT ~ 1200 °CRT ~ 1000 °C
Temperature Stability±0.1 °C
Temperature Control RateMax heating 150 °C/min · cooling rate controllable
Sample StageCeramic · 20 × 20 mm
Optical PathReflection
Top Windowφ25 × 1 mm
Bottom Windowφ10 × 1 mm (optional, for the transmission path)
Window MaterialJGS2 quartz glass (220–2500 nm), manually removable and replaceable
Window-to-Stage Distance10 mm10.5 mm
Chamber Height9 mm9.5 mm
ProbeFixed probe holders ×4 + tungsten or tungsten-rhenium probes ×4Tungsten probes ×4
Probe InterfaceBNC × 4
Stage Surface PotentialGrounded / electrically floating
ChamberAtmosphere
Dimensions150 × 210 × 27 mm120 × 120 × 25 mm
Net Weight1.6 kg0.6 kg

Basic configuration

Included with every stageQty
Main unit (AEH1000, AEH1200 or AEH1000S-HE)1
Temperature controller1
Water-circulation system1
PC control software1
Connection cables, tubing & accessories

Options include adapter plates, custom water circulators, custom probes and probe interfaces, host PCs, and custom control software — confirmed at quotation.

Heating in air? Plan for oxidation

When operated in air at elevated temperature, many metals and alloys may oxidize — the extent depends on material composition, surface condition, temperature, atmosphere, and exposure time. Hold a sample for an hour at a temperature within the simulator range and see:

Model: parabolic oxidation x² = k·t with an Arrhenius rate constant — an approximation for diffusion-controlled oxidation, not every material or temperature; the vacuum panel suppresses the oxidant supply. The simulator covers 200–1000 °C and does not model the AEH1200 operating range above 1000 °C. All three models heat in an atmosphere chamber — confirm the intended operating atmosphere at quotation. Curves are schematic, not performance data for a specific stage or sample.

Hotter, cooler, or need cooling? · quick navigation

SeriesAEH1000 / 1200 / S-HEthis pageAEH200-Mini / 600S / 800Slower rangeAECH · AEPE familieswith cooling
RangeRT to 1000 / 1200 °C — ceramic stage, Hall-capable S-HE optionRT to 200 / 600 / 800 °C — oil-bath trough or atmosphere chamberLN₂-cooled to −190 °C (AECH600S · AECH600) or TEC to −25 °C (AEPE120)
Page— you are here —AEH200-Mini/600S/800S →AECH600S/400SV → · AEPE120/AEPE120V →

FAQ

What is the difference between the three models?

The AEH1000 (RT to 1000 °C) and AEH1200 (RT to 1200 °C) share fixed probe holders ×4 with tungsten or tungsten-rhenium probes; the AEH1200 adds precise programmed temperature control and long-term stable operation at ultra-high temperatures. The AEH1000S-HE (RT to 1000 °C) builds its stage from non-magnetic material and carries tungsten probes ×4 for Hall-effect testing. All three share the ceramic 20 × 20 mm stage, reflection optics, and BNC ×4.

What makes the AEH1000S-HE suitable for Hall measurements?

The AEH1000S-HE uses non-magnetic material in the stage body and is suitable for Hall-effect testing up to 1000 °C. It carries four tungsten probes with signals routed through BNC ×4. It is also the smaller, lighter unit of the family (120 × 120 × 25 mm, 0.6 kg).

Is cooling really “natural cooling”?

The specification lists a controllable cooling rate. These models use resistive heating, and no separate active-cooling method is listed in the standard specification. For active cooling, see the LN₂-cooled AECH600S or the TEC-based AEPE120.

How do the probes connect to my instruments?

Probe signals run out on BNC ×4 to compatible electrical measurement instruments. The stage surface can be grounded or electrically floating on all three models; custom probes and probe interfaces are available as options.

How do I order, and what software support is included?

All three models are supplied by quotation: request via this page or the InSitu Pro™ Stage Selector, and our engineers confirm the configuration for your instruments and reply with pricing and lead time. The host-computer software provides temperature setting, program editing, and data acquisition; LabVIEW and C# SDKs support customized integration.

Disclaimer: ACS Material, LLC believes the information on this page is accurate and represents the best and most current information available to us. Specifications reflect the manufacturer's current datasheet; idealized values are benchmarks and final configurations are confirmed at quotation — always refer to the model datasheet for guaranteed ratings. The interactive simulators are schematic teaching tools, not performance data for a specific unit. ACS Material makes no representations or warranties, express or implied, regarding suitability for any purpose, and will not be responsible for damages resulting from use of or reliance upon this information.