Electron Beam Absorbed Current (EBAC) Characterization System nanoEBAC NE4000

Description

Overview

Electron Beam Absorbed Current (EBAC) technique offers a quick and effective method to identify open circuits, high resistance and shorts along interconnects without direct probing techniques of lower level layers.
The EBAC technique is performed with the electron beam by passing through the dielectric layers down to the lower level metallization layer in order to absorb the electron beam current. The electron beam accelerating voltage of the FESEM controls the probing depth or penetration level through the dielectric layers. A single probe is placed on the exposed, upper layer metallization to complete the circuit and allow the electrons to flow through the interconnect.
Observation of high resistance and shorts due to Seebeck effect is possible by using dual probes along with the Hitachi patented differential EBAC amplifiers.

User-Friendly Design

• Intuitive GUI(Graphical User Interface) with various image and color processing functions.
• Coarse positioning of probes are accomplished by an integrated in-chamber CCD camera system.

Premium Image Quality

• Provides high quality EBAC images with Hitachi’s patented high performance EBAC amplifiers.

Outstanding Performance

• Field Proven, low chromatic aberration, Cold Field Emission (CFE) electron gun for low accelerating voltage imaging and beam damage reduction of the circuit.
• High precision nano-probe units.

Advanced Applications

• Dedicated nano-probing system with EBAC analysis and electrical characteristics analysis. Large specimen stage can provide fine material and electronics components evaluation.

Specifications

Hitachi Electron Beam Absorbed Current(EBAC) Characterization System nanoEBAC NE4000

Probe unit
Unit number	4
Driving method	Piezoelectric
Fine stroke range	5 µm (X,Y)
Coarse stroke range	6 mm (X,Y)
Specimen stage / Base stage
Specimen size	25 mm × 25 mm × 1 mm thick or less
Traverse position	Measurement / Specimen exchange position
Specimen exchange	Air-locked exchange chamber
Prober navigation	Stage traverse to probe position
	Measurement position memory
Probe coarse adjustment
CCD image display	Image display from lateral direction
Electron optics
Electron gun	Cold field emission electron source
Accelerating voltage	0.5 kV to 30 kV
Resolution	15 nm (at 2 kV, WD=15 mm)
Image shift	±150 µm (at 2 kV, WD=15 mm)
EBAC amplifier / Image display
Amplifier type	Current amplifier / Differential amplifier
Image display	SEM / EBAC (Single / Parallel / Overlay)
Image processing	Black and white reversal display, color display, brightness adjustment, slow scan integration, belt scan

Dimensions and Weight

Main unit	1,100 (W) × 1,550 (D) × 1,750 (H) mm, 850 kg
Display unit	1,000 (W) × 1,005 (D) × 1,200 (H) mm, 265 kg

Utility requirement

Room temperature	15 – 25 °C
Humidity	60% RH or less
Power	AC100 V±10% 5 kVA (M5 crimp terminal)
Grounding	100Ω or less