134
|
Channel # |
Leakage Voltage (μV) |
Channel # |
Leakage Voltage (μV) |
|
"""Ï |
548 |
Ï7 " |
1442 |
|
~2 ~ |
449 ’ |
^ 18 |
~ 252 - |
|
~ ~τ~ |
: Ï19 |
19 |
1726 |
|
4 |
^512 |
20 |
^ 404 |
|
" ~5~^ |
560 ~ |
" ^21 ^^ |
~ 375 ~ |
|
' 6 |
_ —252 |
22 ~ |
' 249^ ~ |
|
7 |
` 378^ |
23^^ |
155 ^ |
|
^ ~8 ^~ |
^^ 32Î" |
24 " |
1973 : |
|
~ 9^~ |
~ : 110 |
~ 25 ^^^ |
156 ~ |
|
~W |
126 |
26 ^ |
578 |
|
" 11 |
~" 290 |
27~ |
186 ~^ |
|
12 ^ |
__ 259 - |
28~ |
' 284 - |
|
13 |
172 |
29 |
^ |
|
14- |
` 335 |
3Ô |
~ 184 ~~ |
|
15 |
388 ~ |
3Î ~ |
~~ ~ 445 |
|
" 16~ |
3∞ ’ |
32 |
183 ~ |
Table 1 Amount of leakage of each channel. The stimulus waveform was a IkHz 5Vpk sinusoid.
Capacitance Issues
With any microstimulus∕microrecording system there is always the issue that
after stimulation lingering voltages due to capacitance in the system will obscure the
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