L011-51 (Rev. G0, 2020-07-28)
6
MTD234(**)(***) (See definitions below)
MTD: microTargeting™ Electrode, Differential
2: Base Electrode Material-
W: Tungsten
P: Platinum/Iridium (80%/20%)
S: Stainless Steel
3: Impedance-
Measured at 1000Hz:
A: 500 Kohms (±30%)
B: 1.0 Megohms (±20%)
C: 5.0 Megohms (±20%)
D: 10 Megohms (±20%)
X: Specify between .1 and 10
Z: D.ZAP 1.0 Megohms (±20%)
Measured at 220Hz:
L: D.ZAP 1.0 Megohms (±20%)
4: Packaging-
N: A package of 6 microTargeting™ Electrodes provided non sterile
P: A package of 5 microTargeting™ Electrodes provided sterile
(**)(***): Customer Specific Dimensions-
Electrode Length: 100mm – 293mm
Differential Length: 1mm – 50mm
Protective Tube Length: derived from electrode
and differential length`
KT-FPK-S20 is a convenience kit comprised of 34685L, 66-DA-SD,
66-EL-LP, and 66-IT-05P.
KT-PPK-S is a convenience kit comprised of 44975L, 66-DA-SD, 66-EL-
LP, and 66-IT-03P.
Catalog
number
Tip Material Specications Insertion
Type
Drive
System
Electrode
InsertionTube
Stereotactic
System
22675L Tungsten Impedance: 1M@220Hz, Total length
to macro contact: 261.5mm, Total
extension length to tip: 271.5mm, Max
diameter: 0.55mm
STar Drive
70-IT-ARP +
70-CN-ET, 70-IT-AR
Leksell
CRW
mT Drive 66-IT-1018, 66-IT-AR
*22375Z
22675Z
Tungsten Impedance: 1M@ 1kHz, Total length
to macro contact: 261.5mm, Total
extension length to tip: 271.5mm, Max
diameter: 0.55mm
*Total length to macro contact:
268.5mm
STar Drive
71-IT-ARP +
70-CN-ET, 70-IT-AR
Leksell
CRW
*25375Z Platinum
mT Drive 66-IT-1018, 66-IT-AR
34685L Tungsten Impedance: 1M@220Hz, Total length
to macro contact: 256.4mm, Total
extension length, to tip: 266.4mm, Max
diameter: 0.77mm
STar Drive
or
mT Drive
66-IT-01P, 66-IT-09P,
66-IT-13P, 66-IT-05P,
66-IT-07P, 66-IT-14P,
66-IT-08P, 66-IT-01,
66-IT-09, 66-IT-13,
66-IT-05, 66-IT-07,
66-IT-14, 66-IT-08
Leksell
CRW
*35385Z Platinum Impedance: 1M@1kHz, Total length
to macro contact: 256.4mm, Total
extension length to tip: 266.4mm, Max
diameter: 0.77mm
*Total length to macrocontact:
263.4mm
STar Drive
or
mT Drive
Leksell
CRW
34685Z
*34385Z
Tungsten
*45375Z Platinum Impedance: 1M@1kHz, Total length
to macro contact: 205.72mm, Total
extension length to tip: 215.72mm, Max
diameter: 0.55mm
*Total length to macro contact:
212.72mm
STar Drive
70-IT-AR5P +
70-CN-ET, 70-IT-04
Platform
mT Drive 66-IT-AR5P, 66-IT-04
*44375Z
44970R
44975Z
Tungsten
STar Drive 66-IT-03P, 66-IT-03
mT Drive 66-IT-03P, 66-IT-03
44975L Tungsten Impedance: 1M@220Hz, Total length
to macro contact: 205.72mm, Total
extension length to tip: 215.72mm, Max
diameter: 0.55mm
STar Drive
70-IT-AR5P +
70-CN-ET, 70-IT-04
Platform
mT Drive
66-IT-AR5P,
66-IT-04
STar Drive 66-IT-03P, 66-IT-03
mT Drive 66-IT-03P, 66-IT-03
5000R
5005Z
Platinum Impedance: 1M@1kHz, Total length
to macro contact: 234.2mm, Total
extension length to tip: 244.2mm, Max
diameter: 0.56mm
mT Drive
66-IT-7100,
MER-6000
Nexframe
mT Drive 66-IT-3000
Nexdrive 66-IT-4000
5005L Platinum Impedance: 1M@220Hz, Total length
to macro contact: 234.2mm, Total
extension length to tip: 244.2mm, Max
diameter: 0.56mm
mT Drive
66-IT-7100
MER-6000
Nexframe
mT Drive 66-IT-3000
Nexdrive 66-IT-4000
5700R
5705Z
Platinum Impedance: 1M@1kHz, Total length
to macro contact: 227.2mm, Total
extension length to tip: 237.2mm, Max
diameter: 0.56mm
STar Drive
70-IT-7107 +
70-CN-ET
Nexframe
STar Drive 70-IT-3007
5705L Platinum Impedance: 1M@220Hz, Total length
to macro contact: 227.2mm, Total
extension length to tip: 237.2mm, Max
diameter: 0.56mm
STar Drive
70-IT-7107 +
70-CN-ET
Nexframe
STar Drive 70-IT-3007
MER-5000T Tungsten Impedance: 1M@1kHz, Total length
to macro contact: 234.2mm, Total
extension length to tip: 244.2mm, Max
diameter: 0.55mm
mT Drive 66-IT-3000
Nexframe
mT Drive
66-IT-7100,
MER-6000
Nextdrive 66-IT-4000
Used with:
1. Micro Contact
2. Macro Contact
3. Insertion Tube
4. Macroelectrode Tip
5. Microelectrode Tip
6. Black
7. Red
8. Alligator Clip
A. Electrode Length
B. Differential Length
C. Macro Tube Length
1
2
3
A
5
6
4
7
B
C
8
In vivo measured impedances may differ from the above specified impedances due to various contributing
factors, including but not limited to immersion length, measurement current and temperature.
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