Measurement and power solutions, Model 646 specifications – Trek 646 Electrostatic Chuck Supply User Manual

Page 2

Features

Clamped Wafer
Detection Feature
(Thresholds are set
by the program)

To indicate wafer clamping events, the
capacitive currents generated by a low voltage
sine wave, super-imposed on the Phase A and
Phase B outputs, are monitored but can be
disabled through the program. The super-
imposed waveform is used to indicate a no
wafer, wafer present or wafer clamped status

Capacitive Load
Select

Clamped capacitance status range can be
selected by the program for 0 to 10, 20 or 30nF
(phase to phase) depending on the system and
electrostatic clamp physical configurations

Mechanical

Dimensions

88.1 mm H x 431.8 mm W x 531.9 mm D
(3.47” H x 17” W x 20.9” D) 1U rack enclosure

Panel Width

482.6 mm (19”)

Weight

11 lbs (5.0 kg)

Connectors

15-pin “D” ITT Canon used by remote device to
control/monitor the unit, 9-pin “D” ITT Canon RS-
232, 3-Pin FCT “D” High-Voltage, standard type-A
USB, Ethernet (optional) and Front Panel

Power ON/OFF

2-position rocker switch

Operating Conditions

Temperature

0°C to 35°C (32°F to 104°F)

Relative Humidity

To 85%, noncondensing

Altitude

To 2000 meters (6561.68 ft.)

Electrical

DC Input Receptacle

2.0 mm locking DC jack; center contact is
positive and shell is negative (receptacle mates
with Switchcraft S761K plug)

Ground Receptacle

Ground stud

Power Requirements

24 V DC, 2.0 A

Supplied Accessories

Operator Manual, SW PN: 24013

USB Cable
HV Connector

PN: BA103
PN: B8076R

DC Plug (
S761K)

Switchcraft

PN: BA119R

Line Cord, Fuses

Selected per geographic destination

Optional Accessories

90-264 V AC to
24 V DC Power
Adapter

PN: IK045

Note

Trek Model 645, a
available. Please contact the factory for more information

±2 kV model version of the instrument, is also

Model 646 Specifications

Outputs

Simultaneous High-
Voltage Outputs

Two simultaneous high-voltage outputs (Output
Phase A and Output Phase B) of equal
magnitude and opposite in polarity relative to
an offset voltage

Output Phasing

Output Voltage A
(Reference Phase)

0 to ±3 kV

Output Voltage B

0 to ±3 kV (Phase B =[-1] x Phase A)

Offset Voltage
(This feature can
be disabled through
the program)

Each DC output voltage (Phase A and Phase

B) is ramped up and down with symmetrical
rise and fall times, or they can be programmed
with the user's custom clamping and
declamping waveforms. The clamping process
is initiated in response to the Clamp On/Off
control. The polarity of each output reverses to
the opposite polarity after each Clamp On/Off
cycle.

Output Waveshape

Each DC output voltage (Phase A and Phase B)
is ramped up and down with symmetrical rise
and fall times, or can be programmed with the
user’s custom clamping and declamping
waveforms

Output Voltage
Range

0 to ±3 kV DC, maximum

Output Current

0 to ±6.5 mA DC with peak capability of 10 mA

Input

Setting the High-
Voltage Amplitude

HV magnitude can be controlled either
externally or internally to the unit

Setting the Offset
Voltage

Offset voltage may be controlled externally or
internally to the unit

Output Voltage Monitor (Back Panel Connector)

Scale Factor

1 V/300 V

Phase B DC

Accuracy better than 0.5% of full scale

Offset Voltage

Less than 10 mV

Output Noise

Less than 50 mV rms*

Steady State Voltage Leakage Current Monitor

Scale Factor

1 V / 1 µA

DC Accuracy

±0.1 µA

Output Noise

Less than 50 mV rms*

Features

Interlock

Connections are provided to support an
interlock safety configuration. In the event that
the interlock is open, the high-voltage
generation circuits are shut down

Digital Display

40X2 LCD character display shows various
system functions such as Set Voltage, Output
Voltage and Capacitance Monitor

Measurement and Power Solutions

*Measured using the true rms feature of the HPModel 34401A digital multimeter