REE INTERPOLATORS - Replaced RGE interfaces
The REE
digital series of interpolators is designed to accompany the RG2 (20 µm) and
RG4 (40 µm) encoder systems by offering a wide range of interpolation factors.
Industry standard 1 Vpp differential input analogue signals are interpolated to
industry standard RS-422A digital quadrature output signals
These
interpolators can be used with any standard 1Vpp differential output encoder
system to enable easy integration with industry standard digital controller
inputs.
When
interfaced with 40 µm pitch systems such as the RGH34, RGH40 and RGH41, the
interpolators give resolutions down to 10 nm. When used with 20 µm pitch
systems such as the RGH22, RGH24 and RGH20, the interpolators will resolve down
to 5 nm. The REE interpolators are fully RoHS compliant and feature user
selectable AGC (Auto Gain Control) that is operational at all speeds. These
interpolators are capable of operational speeds of over 3 m/s at 100 nm
resolution from a 20 µm encoder signal period. The REE interpolators feature a
tri-coloured setup LED indicating incremental signal strength. This allows ease
of setup for optimum performance. A proportional external setup signal and
calibration cycle also help to simplify installation
The REE
interpolators have a low cyclic error – less than 50 nm from 20 µm signal
period at low speed. This is achieved by active offset, balance and gain
control which is operational, when selected, at all speeds.
REE INTERPOLATORS -
Replaced RGE interfaces
|
|
NOTE: REE interpolators are for use with all industry standard
1 Vpp readheads.
|
|
The analogue version of REE is
intended to replace the AGC interface (A-9539-0130).
|
|
Standard digital output alarm options: A - All alarms; B - High
and low signal alarms only
|
|
Tri state digital output alarms: E - All alarms; F - High and
low signal alarms only
|
|
Part
number
|
Interpolation
Factor
|
Alarm
options
|
Clocked output options
|
Ref
mark (A) / Limit options (B) / Wide ref mark ( C )
|
Price
US$
|
|
|
REE0100A50A
|
0100 (0.2 um)
|
A / B/ E / F
|
50 (50MHz)
|
A
/ B / C
|
362
|
|
REE0100A40A
|
0100 (0.2 um)
|
A / B/ E / F
|
40 (40MHz)
|
A
/ B / C
|
362
|
|
REE0100A25A
|
0100 (0.2 um)
|
A / B/ E / F
|
25 (25MHz)
|
A
/ B / C
|
362
|
|
REE0100A20A
|
0100 (0.2 um)
|
A / B/ E / F
|
20 (20MHz)
|
A
/ B / C
|
362
|
|
REE0100A12A
|
0100 (0.2 um)
|
A / B/ E / F
|
12 (12MHz)
|
A
/ B / C
|
362
|
|
REE0100A10A
|
0100 (0.2 um)
|
A / B/ E / F
|
10 (10MHz)
|
A
/ B / C
|
362
|
|
REE0100A08A
|
0100 (0.2 um)
|
A / B/ E / F
|
08 (8MHz)
|
A
/ B / C
|
362
|
|
REE0100A06A
|
0100 (0.2 um)
|
A / B/ E / F
|
06 (6MHz)
|
A
/ B / C
|
362
|
|
REE0100A05A
|
0100 (0.2 um)
|
A / B/ E / F
|
05 (5MHz)
|
A
/ B / C
|
362
|
|
REE0100A03A
|
0100 (0.2 um)
|
A / B/ E / F
|
03 (3MHz)
|
A
/ B / C
|
362
|
|
REE0100A01A
|
0100 (0.2 um)
|
A / B/ E / F
|
01 (1MHz)
|
A
/ B / C
|
362
|
|
Part
number
|
Interpolation
Factor
|
Alarm
options
|
Clocked output options
|
Ref
mark (A) / Limit options (B) / Wide ref mark ( C )
|
Price US$
|
|
|
REE0200A50A
|
0200 (0.1 um)
|
A / B/ E / F
|
50 (50MHz)
|
A
/ B / C
|
434
|
|
REE0200A40A
|
0200 (0.1 um)
|
A / B/ E / F
|
40 (40MHz)
|
A
/ B / C
|
434
|
|
REE0200A25A
|
0200 (0.1 um)
|
A / B/ E / F
|
25 (25MHz)
|
A
/ B / C
|
434
|
|
REE0200A20A
|
0200 (0.1 um)
|
A / B/ E / F
|
20 (20MHz)
|
A
/ B / C
|
434
|
|
REE0200A10A
|
0200 (0.1 um)
|
A / B/ E / F
|
12 (12MHz)
|
A
/ B / C
|
434
|
|
REE0200A10A
|
0200 (0.1 um)
|
A / B/ E / F
|
10 (10MHz)
|
A
/ B / C
|
434
|
|
REE0200A08A
|
0200 (0.1 um)
|
A / B/ E / F
|
08 (8MHz)
|
A
/ B / C
|
434
|
|
REE0200A06A
|
0200 (0.1 um)
|
A / B/ E / F
|
06 (6MHz)
|
A
/ B / C
|
434
|
|
REE0200A05A
|
0200 (0.1 um)
|
A / B/ E / F
|
05 (5MHz)
|
A
/ B / C
|
434
|
|
REE0200A03A
|
0200 (0.1 um)
|
A / B/ E / F
|
03 (3MHz)
|
A
/ B / C
|
434
|
|
REE0200A01A
|
0200 (0.1 um)
|
A / B/ E / F
|
01 (1MHz)
|
A
/ B / C
|
434
|
|