2017 NeuroNexus Probe Catalog

2017 Electrode Array Design Catalog

Welcome! NeuroNexus is a global leader for innovative neural interface products and technologies to meet current and emerging needs in neuroscience research, neurosurgery, and neurostimulation. Our diverse line of products is used in species ranging from fruit flies to non-human primates to precisely record, stimulate, and deliver drugs across all areas of the nervous system. For 2017, NeuroNexus is offering new lines of products for peripheral nerve research, EEG, and neurocardiology. We look forward to collaborating with you in your research work. To see our entire product line, visit neuronexus.com.

ELECTRODE A R R AY DESIGNS 2 3 4 6 14

How to Configure a Neural Probe Electrode Site Layouts Headstage Interfaces Connector Package Specifications Standard Electrode Arrays (16-64 ch)

14

• Linear and Edge

38

• Tetrodes, Polytrodes, and Buzsaki designs

56 High Channel Count Electrode Arrays (128-256 channels) 56

• Linear and Edge

60

• Tetrodes and Polytrodes

66 67 69 77 82 87 93 97 1

EEG Nerve Cuff Electrode Arrays Surface Arrays and Drug Delivery Cardiac Arrays Matrix Arrays™ (3D) Vector Arrays™ (Deep brain) Qtrode Arrays (4 channel) Special Order

How to Configure a Neural Probe A complete NeuroNexus neural probe assembly consists of two parts: an electrode array, and a package. Both must be configured.

Step 1: Browse our Electrode Array Design section to find an electrode array that meets your needs.

Step 2: Determine the connector on your headstage, and find a package that will connect to it. The following pages detail available packages. EXAMPLE 1:

EXAMPLE 2:

A user specifies an A1x32-6mm-50-177 (page 28) electrode array. The lab uses a Plexon HST/16V-G20 headstage, which has an 18-pin Omnetics Nano strip connector. The user can specify either a CM16LP (page 6) or an H16 (page 8) package, both of which have 18-pin Omnetics Nano strip connectors. The user desires connector standoff from the implant site, so the H16 package is selected. Because the A1x32-6mm-50-177 electrode comes in two thicknesses, that must be specified as well.

A user wants to combine optical stimulation with neuronal recording using an A4x4-3mm-100-125-703 electrode array (page 23). The lab uses a TDT recording system with a 16 channel Zif Clip™ headstage. Because the user wants to specify an optoelectrode, the OZ16 package (page 13) is selected. Because the electrode array has multiple shanks, the user must co-ordinate fiber placement with the sales co-ordinator. Because the A4x4-3mm-100-125-703 electrode only comes in one thickness, that value can be omitted from the part number.

This is the resulting part number for this probe:

This is the resulting part number for this probe:

A1x32-6mm-50-177-H16-50

A4x4-3mm-125-703-OZ16

Electrode Array

Electrode Array

Package Thickness

2

Package

S T A N D A R D A R R AY S I T E L AY O U T S Below are examples of the different types of electrode array tips you can find in our catalog.

Linear electrode arrays are the foundation for multi-channel recordings. The laminar design allows for a longer area of coverage than a single tip site, and either facilitates or replaces the need for passage-type experiments. Linear electrode arrays fit the widest range of applications.

E L E C T RO D E A RRAY D E S I G NS Turn to page 14 to see all available Standard electrode array designs. High channel count designs (128 channels and up) begin on page 56.

D ESIGN YOUR OWN PROBE

Edge sites are similar to the Linear layout, but electrode sites are strategically positioned at the edge of the substrate.

NeuroNexus offers Custom Design services, offering researchers access to a virtually unlimited design space. A Tetrode is an arrangement of four electrode sites placed close together, allowing for high-quality cell discrimination in recordings.

Polytrode electrode site layouts come in two variations: Poly2 (two columns of sites, shown left), or Poly3 (three columns of sites). They have a mix of linear and tetrode benefits, with sites close enough together to allow a degree of multiple representation across different sites, while sampling a larger space. Multi-shank electrode arrays provide a twodimensional representation of the brain. By controlling shank and site spacing, a more detailed understanding can be obtained of a larger space in the brain. Some multi-shank designs incorporate tetrode and polytrode site arrangements. 3

Contact us to learn more.

REFERENC ES: Aizawa, Hidenori et al. “The Synchronous Activity of Lateral Habenular Neurons is Essential for Regulating Hippocampal Theta Oscillation.” J Neurosci 2013 Ogawa, Takeshi et al. “Large-Scale Heterogeneous Representation of Sound Attributes in Rat Primary Auditory Cortex: From Unit Activity to Population Dynamics.” J Neurosci 2011 Jackson et al., Fast and slow gamma rhythms are intrinsically and independently generated in the subiculum. J Neurosci. 2011

Visit neuronexus.com/science-update for additional references.

Headstage Interfaces NeuroNexus probes interface with most commercially available headstages via the connector package. We also provide the SmartLink headstage for use with the SmartBox.

To configure a package for your headstage, you will first need to know what type of connector your headstage uses. Then, find the compatible packages that match up to your headstage.

OMNETICS NANO CONNECTORS

DUAL INLINE PIN (DIP)

Omnetics Nano connectors are widely available. NeuroNexus offers a large range of packages that connect to headstages with Omnetics Nano connectors:

Dual Inline Pin connectors offer a versatile, reliable connection for acute applications.

16 channel: 32 channel: 64 channel:

16 channel:

CM16LP, H16, HC16, OCM16, DM16, MR_CM16 CM32, H32, HC32, OCM32, MR_CM32 H64, H64LP, HC64

4

A16

Headstage Interfaces If you have a headstage that does not connect directly to any of our packages, you might need an adaptor. A complete list of adaptors can be found at neuronexus.com/products/accessories.

If you cannot find an adaptor that meets your setup needs, contact us for a custom adaptor or cable.

TDT ZIF-CLIP™

SAMTEC

TDT Zif-Clip™ headstages utilize miniature, low insertion force connectors. Because of their small size, we recommend Zif-Clip™ headstages and packages for chronic use.

SAMTEC connectors are reliable, stable, high-density connectors standard in acute applications.

16 channel: 32 channel: 64 channel:

32 channel: 64 channel:

Z16, HZ16 Z32, HZ32 Z64, HZ64

5

A32 A64

Connector Package Specifications A16

A32

A64

The A16 package is ideal for acute experiments using 16 channel electrode arrays.

The A32 package is ideal for acute experiments using 32 channel electrode arrays.

The A64 package is ideal for acute experiments using 64 channel electrode arrays.

A-SERIES (ACUTE)

13.4 mm 4.3 mm

5 mm

50 mm

2.1 mm

50 mm

Weight: 1.25 g

CM-SERIES (CHRONIC)

8.2 mm

4 mm

Weight: 1.25 g

CONNECTOR TYPE: Dual Inline Pin (DIP); pin length 5.5 mm, spacing 2.5 mm COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

CONNECTOR TYPE: SAMTEC MOLC-110-01-S-Q MATING CONNECTOR: SAMTEC FOLC COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

CM16LP

CM32

The compact CM16LP package is ideal for chronic experiments using 16 channel electrode arrays.

The compact CM32 package is ideal for chronic experiments using 32 channel electrode arrays.

3.4 mm

2.9 mm 13 mm

6.6 mm

8.6 mm

thickness: 1.73 mm weight: 0.17 g

CONNECTOR TYPE: Omnetics NSD18 (2 guideposts) MATING CONNECTOR: Omnetics NPD18 (2 guideposts) COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

11.3 mm

thickness: 1.78 mm weight: 0.32 g

CONNECTOR TYPE: Omnetics NSD36 (4 guideposts) MATING CONNECTOR: Omnetics NPD36 (4 guideposts) COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

6

9.2 mm

7.4 mm

66.3 mm

Weight: 2.53 g

CONNECTOR TYPE: (2x) SAMTEC MOLC-110-01-S-Q MATING CONNECTOR: (2x) SAMTEC FOLC COMPATIBLE ELECTRODES: Any 64 channel Standard (A-type) electrode array

Connector Package Specifications Z32

Z64

The Z16 package is ideal for chronic experiments using 16 channel electrode arrays. It connects directly to a TDT ZC16 or ZC32 headstage.

The Z32 package is ideal for chronic experiments using 32 channel electrode arrays. It connects directly to a TDT ZC32 headstage.

The Z64 package is ideal for chronic experiments using 64 channel electrode arrays. It connects directly to a TDT ZC64 headstage.

D-SERIES (DRUG DELIVERY)

Z-SERIES (CHRONIC)

Z16

2.9 mm

2.5 mm

3.9 mm 9.3 mm

9.3 mm

5.4 mm 7.4 mm

4.8 mm

thickness: 2 mm weight: 0.25 g

8 mm

thickness: 2 mm weight: 0.25 g

MATING CONNECTOR: TDT ZC16/ZC32 headstage COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

MATING CONNECTOR: TDT ZC32 headstage COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

D16

DM16

The D16 package is ideal for acute fluidic or drug delivery experiments using the E16-20mm-100-177 electrode array. (See Drug Delivery, page 23)

The DM16 package is ideal for chronic fluidic or drug delivery experiments using the E16-20mm-100-177 electrode array (page 124).

13.4 mm

≈ 2 in.

4.3 mm 11 mm

50 mm weight: 1.39 g CONNECTOR TYPE: Dual Inline Pin (DIP); pin length 5.5 mm, spacing 2.5 mm COMPATIBLE ELECTRODES: E16-20mm-100-177

6.2 mm

thickness: 1.78 mm weight: 0.40 g

CONNECTOR TYPE: Omnetics NSD18 (2 guideposts) MATING CONNECTOR: Omnetics NPD18 (2 guideposts) COMPATIBLE ELECTRODES: E16-20mm-100-177

7

13 mm

6.6 mm

8.6 mm

thickness: 2 mm weight: 0.44 g

MATING CONNECTOR: TDT ZC64 headstage COMPATIBLE ELECTRODES: Any 64 channel Standard (A-type) electrode array

Connector Package Specifications H16

HC16

HZ16

The H16 package is ideal for chronic experiments requiring connector standoff.

The HC16 package is ideal for chronic experiments requiring connector standoff.

The HZ16 package is ideal for chronic experiments requiring connector standoff. It connects directly to a TDT ZC16 or ZC32 headstage.

21 mm

7.2 mm

21 mm

21 mm

12.1 mm

4.5 mm 7.4 mm

4 mm

6.7 mm

9.3 mm

2.5 mm

H-SERIES (CHRONIC)

4 mm

thickness: 5.4 mm weight: 0.19 g

thickness: 1.78 mm weight: 0.18 g

7.7 mm

thickness: 2 mm weight: 0.26 g

CONNECTOR TYPE: Omnetics NSD18 (2 guideposts) MATING CONNECTOR: Omnetics NPD18 (2 guideposts) COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

CONNECTOR TYPE: Omnetics NSD18 (2 guideposts) MATING CONNECTOR: Omnetics NPD18 (2 guideposts) COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

MATING CONNECTOR: TDT ZC16/ZC32 headstage COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

H32

HC32

HZ32

The H32 package is ideal for chronic experiments requiring connector standoff.

The HC32 package is ideal for chronic experiments requiring connector standoff.

The HZ32 package is ideal for chronic experiments requiring connector standoff. It connects directly to a TDT ZC32 headstage.

21 mm

9.3 mm

21 mm

12.2 mm

21 mm

9 mm

13 mm 5 mm thickness: 1.78 mm weight: 0.38 g CONNECTOR TYPE: Omnetics NSD36 (4 guideposts) MATING CONNECTOR: Omnetics NPD36 (4 guideposts) COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

5.7 mm 8 mm

thickness: 5.4 mm weight: 0.52 g CONNECTOR TYPE: (2x) Omnetics NSD18 (2 guideposts) MATING CONNECTOR: (2x) Omnetics NPD18 (2 guideposts) COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

8

9.3 mm

6.5 mm 9.3 mm

thickness: 2 mm weight: 0.26 g

MATING CONNECTOR: TDT ZC32 headstage COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

Connector Package Specifications H64

H64LP

HC64

The H64 package is ideal for chronic experiments requiring connector standoff.

The H64LP package is similar to the H64 package (left), but more compact.

The HC64 package is ideal for chronic experiments requiring connector standoff.

30 mm

19 mm

30 mm

15 mm

H-SERIES (CHRONIC)

10 mm

thickness: 5.2 mm weight: 1.07 g

CONNECTOR TYPE: (2x) Omnetics NSD36 (4 guideposts) MATING CONNECTOR: (2x) Omnetics NPD36 (4 guideposts) COMPATIBLE ELECTRODES: Any 64 channel Standard (A-type) electrode array

21.6 mm

15 mm

10 mm

thickness: 4.2 mm weight: 1.05 g

CONNECTOR TYPE: (2x) Omnetics NSD36 (4 guideposts) MATING CONNECTOR: (2x) Omnetics NPD36 (4 guideposts) COMPATIBLE ELECTRODES: Any 64 channel Standard (A-type) electrode array

HZ64 The HZ64 package is ideal for chronic experiments requiring connector standoff. It connects directly to a TDT ZC64 headstage. 30 mm

30 mm

15 mm

7.4 mm 8.6 mm

14.4 mm

thickness: 2 mm weight: 0.54 g MATING CONNECTOR: TDT ZC64 headstage COMPATIBLE ELECTRODES: Any 64 channel Standard (A-type) electrode array

9

17.2 mm

15.1 mm

thickness: 5.4 mm weight: 1.4 g

CONNECTOR TYPE: (2x) Omnetics NSD36 (4 guideposts) MATING CONNECTOR: (2x) Omnetics NPD36 (4 guideposts) COMPATIBLE ELECTRODES: Any 64 channel Standard (A-type) electrode array

Connector Package Specifications MR_A16

MR_CM16

MR_H16

The MR_A16 package is ideal for acute MRI applications.

The compact MR_CM16 package is ideal for chronic MRI applications.

The MR_H16 package is ideal for chronic MRI experiments requiring connector standoff.

13.4 mm

4 mm 2.5 mm

4.3 mm

21 mm

7.2 mm

6.7 mm

13 mm

55 mm

10.5 mm

MR-SERIES (MRI COMPATIBLE)

weight: 1.3 g

thickness: 1.78 mm weight: 0.19 g

thickness: 1.78 mm weight: 0.18 g

CONNECTOR TYPE: Omnetics NSD18 (2 guideposts) MATING CONNECTOR: Omnetics NPD18 (2 guideposts) COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

CONNECTOR TYPE: Omnetics NSD18 (2 guideposts) MATING CONNECTOR: Omnetics NPD18 (2 guideposts) COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

CONNECTOR TYPE: Omnetics NSD18 (2 guideposts) MATING CONNECTOR: Omnetics NPD18 (2 guideposts) COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

MR_CM32

MR_H32

MR_HC32

The MR_CM32 package is ideal for chronic MRI applications.

The MR_H32 package is ideal for chronic MRI experiments requiring connector standoff.

The MR_HC32 package is ideal for chronic MRI experiments requiring connector standoff.

11.3 mm

21 mm

9.3 mm

21 mm

12.2 mm

9 mm

13 mm

13 mm 2.9 mm

5 mm thickness: 5.4 mm weight: 0.38 g

thickness: 1.78 mm weight: 0.32 g CONNECTOR TYPE: Omnetics NSD36 (4 guideposts) MATING CONNECTOR: Omnetics NPD36 (4 guideposts) COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

CONNECTOR TYPE: Omnetics NSD36 (4 guideposts) MATING CONNECTOR: Omnetics NPD36 (4 guideposts) COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

10

thickness: 5.4 mm weight: 0.52 g CONNECTOR TYPE: (2x) Omnetics NSD18 (2 guideposts) MATING CONNECTOR: (2x) Omnetics NPD18 (2 guideposts) COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

Q-SERIES (4 CHANNEL)

MR_H64

MR_HC64

Q4

The MR_H64 package is ideal for chronic MRI experiments requiring connector standoff.

The MR_HC64 package is ideal for chronic MRI experiments requiring connector standoff.

The Q4 package is ideal for acute experiments with the 4-channel Qtrode.

30 mm

30 mm

18.1 mm

21.6 mm

17.2 mm

15.9 mm

10 mm

15.1 mm

thickness: 5.2 mm weight: 1.07 g

thickness: 5.4 mm weight: 1.4 g

Q-SERIES (4 CHANNEL)

MR-SERIES (MRI COMPATIBLE)

Connector Package Specifications

9.3 mm 2.6 mm

40 mm thickness: 2 mm weight: 0.78 g CONNECTOR TYPE: Edge connector MATING CONNECTOR: Edge socket COMPATIBLE ELECTRODES: Any 4-channel electrode array (Qtrode)

CONNECTOR TYPE: (2x) Omnetics NSD36 (4 guideposts) MATING CONNECTOR: (2x) Omnetics NPD36 (4 guideposts) COMPATIBLE ELECTRODES: Any 64 channel Standard (A-type) electrode array

CONNECTOR TYPE: (2x) Omnetics NSD36 (4 guideposts) MATING CONNECTOR: (2x) Omnetics NPD36 (4 guideposts) COMPATIBLE ELECTRODES: Any 64 channel Standard (A-type) electrode array

EIB

CQ4

HQ4

The compact EIB package allows multiple 4-channel Qtrodes to be implanted in one animal.

The CQ4 package is ideal for chronic experiments with the 4-channel Qtrode.

The HQ4 package is ideal for chronic experiments with the 4-channel Qtrode, or experiments using a microdrive (see dDrive, page 67).

3.7 mm

8.2 mm

thickness: 0.6 mm weight: 0.02 g

CONNECTOR TYPE: Wires provided for connection to QIB MATING CONNECTOR: QIB COMPATIBLE ELECTRODES: Any 4-channel electrode array (Qtrode)

thickness: 3.1 mm weight: 0.31 g CONNECTOR TYPE: Edge connector MATING CONNECTOR: Edge socket COMPATIBLE ELECTRODES: Any 4-channel electrode array (Qtrode)

11

thickness: 3.1 mm weight: 0.31 g CONNECTOR TYPE: Edge connector MATING CONNECTOR: Edge socket COMPATIBLE ELECTRODES: Any 4-channel electrode array (Qtrode)

Connector Package Specifications OA16

OA32

OCM16

The OA16 package uses the NNc locking fiber coupler, and is ideal for acute optogenetics experiments with awake, behaving animals.

The OA32 package uses the NNc locking fiber coupler, and is ideal for optogenetics experiments with awake, behaving animals.

The OCM16 package uses the NNc locking fiber coupler, and is ideal for chronic optogenetics experiments with awake, behaving animals. 6.7 mm

13.4 mm 5.5 mm

4.3 mm

5 mm

4 mm

8.2 mm

5.5 mm 10.1 mm

9.5 mm 3.5 mm

55.5 mm

O-SERIES (OPTOGENETICS)

55.5 mm

thickness: 3 mm

CONNECTOR TYPE: Dual Inline Pin (DIP); pin length 5.5 mm, spacing 2.5 mm COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

CONNECTOR TYPE: SAMTEC MOLC-110-01-S-Q MATING CONNECTOR: SAMTEC FOLC COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

13.6 mm CONNECTOR TYPE: Omnetics NSD18 (2 guideposts) MATING CONNECTOR: Omnetics NPD18 (2 guideposts) COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

OA16LP

OA32LP

OCM16LP

The OA16LP uses a bare ferrule fiber connection, and is suited for acute optogenetics experiments.

The OA32LP uses a bare ferrule fiber connection, and is suited for acute optogenetics experiments.

The OCM16LP uses a bare ferrule fiber connection, and is suited for chronic optogenetics experiments. 1.25 mm

13.4 mm 4.3 mm

1.25 mm

5 mm

8.2 mm

4 mm

1.25 mm 16.5 mm 12 mm

56.5 mm

56.5 mm 11.9 mm

CONNECTOR TYPE: Dual Inline Pin (DIP); pin length 5.5 mm, spacing 2.5 mm COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

CONNECTOR TYPE: SAMTEC MOLC-110-01-S-Q MATING CONNECTOR: SAMTEC FOLC COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

12

CONNECTOR TYPE: Omnetics NSD18 (2 guideposts) MATING CONNECTOR: Omnetics NPD18 (2 guideposts) COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

Connector Package Specifications OCM32

OZ16

OZ32

The OCM32 package uses the NNc locking fiber coupler, and is ideal for chronic optogenetics experiments with awake, behaving animals.

The OZ16 package uses the NNc locking fiber coupler, and is ideal for chronic optogenetics experiments with awake, behaving animals.

The OZ32 package uses the NNc locking fiber coupler, and is ideal for chronic optogenetics experiments with awake, behaving animals.

12.6 mm

12.7 mm 3.5 mm

13 mm

13.3 mm

13 mm

13.3 mm

2.3 mm thickness: 3 mm

3.7 mm

thickness: 3 mm 19.4 mm

19.5 mm O-SERIES (OPTOGENETICS)

9.3 mm

9.3 mm

13 mm

thickness: 3 mm

19.4 mm

CONNECTOR TYPE: Omnetics NSD36 (4 guideposts) MATING CONNECTOR: Omnetics NPD36 (4 guideposts) COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

MATING CONNECTOR: TDT ZC16/ZC32 headstage COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

MATING CONNECTOR: TDT ZC32 headstage COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

OCM32LP

OZ16LP

OZ32LP

The OCM32LP uses a bare ferrule fiber connection, and is suited for chronic optogenetics experiments.

The OZ16LP uses a bare ferrule fiber connection, and is suited for chronic optogenetics experiments.

The OZ32LP uses a bare ferrule fiber connection, and is suited for chronic optogenetics experiments.

1.25 mm

18.8 mm

14.9 mm

1.25 mm

1.25 mm

11.9 mm CONNECTOR TYPE: Omnetics NSD36 (4 guideposts) MATING CONNECTOR: Omnetics NPD36 (4 guideposts) COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

15.6 mm

12.9 mm

14.3 mm MATING CONNECTOR: TDT ZC16/ZC32 headstage COMPATIBLE ELECTRODES: Any 16 channel Standard (A-type) electrode array

13

20.1 mm

16.4 mm

14.9 mm MATING CONNECTOR: TDT ZC32 headstage COMPATIBLE ELECTRODES: Any 32 channel Standard (A-type) electrode array

A1x16-3mm-25-177 T I P D E TA I L

availab le p ac k ages AC UT E A1 6 C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6

77 µm (max)

375 µm

3 mm

OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

15 µm dia

26 µm (min)

14

177 µm2

th ic k n ess

25 µm

15 µ m 50 µm

A1x16-3mm-50-177 A1x16-3mm-50-703 T I P D E TA I L

availab le p ac k ages AC UT E A1 6 C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6

123 µm (max)

OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

750 µm

3 mm

15 µm dia

177 µm2

30 µm dia

703 µm2

MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

th ic k n ess 50 µm

33 µm (min)

15 µ m 50 µm

A1x16-3mm-50-177

15

A1x16-3mm-50-703

T I P D E TA I L

A1x16-3mm-100-177 A1x16-3mm-100-703 availab le p ac k ages AC UT E A1 6 123 µm (max)

C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6 OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

1500 µm

3 mm 177 µm2

703 µm2

15 µm dia

MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

30 µm dia

th ic k n ess 100 µm 33 µm (min) A1x16-3mm-100-177

16

15 µ m 50 µm A1x16-3mm-100-703

A1x16-5mm-25-177 availab le p ac k ages

T I P D E TA I L

200 µm

AC UT E A1 6 C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6

77 µm

OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

5 mm 375 µm

MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm 15 µm dia

125 µm

26 µm (min)

17

177 µm2

th ic k n ess

25 µm

15 µ m 50 µm

200 µm

T I P D E TA I L

A1x16-5mm-50-177 A1x16-5mm-50-703 availab le p ac k ages AC UT E A1 6

125 µm

C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6 OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

750 µm

5 mm

177 µm2

703 µm2

MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

30 µm dia

15 µm dia

th ic k n ess

125 µm 50 µm 33 µm (min)

15 µ m 50 µ m

50 µm

A1x16-5mm-50-177

18

A1x16-5mm-50-703

200 µm (max)

T I P D E TA I L

A1x16-5mm-100-177 A1x16-5mm-100-703 availab le p ac k ages 125 µm

AC UT E A1 6 C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6 OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

1500 µm

5 mm

125 µm

177 µm2

703 µm2

15 µm dia

30 µm dia

MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

th ic k n ess 100 µm 50 µm

33 µm (min) A1x16-5mm-100-177

19

A1x16-5mm-100-703

15 µ m 50 µ m

200 µm (max)

T I P D E TA I L

A1x16-5mm-150-177 A1x16-5mm-150-703 availab le p ac k ages AC UT E A1 6

125 µm

C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6 OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

2250 µm

5 mm 125 µm

MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm 177 µm2

703 µm2 30 µm dia

15 µm dia

th ic k n ess 150 µm 50 µm

33 µm (min) A1x16-5mm-150-177

20

A1x16-5mm-150-703

15 µ m

A1x16-10mm-100-177 A1x16-10mm-100-703 T I P D E TA I L

500 µm (max)

availab le p ac k ages AC UT E A1 6

123 µm

C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6 OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

10 mm 1500 µm

177 µm2

703 µm2

15 µm dia

30 µm dia

123 µm

MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

th ic k n ess 100 µm 68 µm (min)

50 µm

A1x16-10mm-100-177

21

A1x16-10mm-100-703

50 µ m

A4x4-3mm-50-125-177 T I P D E TA I L

100 µm (max)

availab le p ac k ages AC UT E A1 6 C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6 OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

51 µm

3 mm 150 µm

177 µm2 15 µm dia

MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

50 µm

th ic k n ess

33 µm (min) 50 µm

55 µm

375 µm

125 µm

22

15 µ m

A4x4-3mm-100-125-177 A4x4-3mm-100-125-703 T I P D E TA I L

100 µm (max)

availab le p ac k ages AC UT E A1 6 C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6 OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

55 µm

3 mm

300 µm 30 µm dia

15 µm dia

703 µm2

177 µm2

55 µm

375 µm

100 µm

MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

th ic k n ess 33 µm (min)

15 µ m

50 µm A4x4-3mm-100-125-177

23

A4x4-3mm-100-125-703

A4x4-4mm-200-200-1250 T I P D E TA I L

108 µm

availab le p ac k ages AC UT E A1 6 C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6

108 µm (max)

4 mm

1250 µm2 600 µm

OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

40 µm dia

200 µm 108 µm

th ic k n ess 67 µm (min)

90 µm

600 µm

200 µm

24

15 µ m

A16x1-2mm-50-177 A16x1-2mm-100-177 T I P D E TA I L

availab le p ac k ages AC UT E A1 6 C HRONIC C M1 6 L P H1 6 _2 1 mm

2 mm

177 µm2

th ic k n ess 27 µm / 55 µm (max)

50 µm

50 µm / 100 µm 750 µm / 1500 µm

25

15 µ m

145 µm

T I P D E TA I L

A1x32-5mm-25-177 availab le p ac k ages AC UT E A3 2

145 µm (max)

C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

775 µm

5 mm Reference Site: 4200 µm2

15 µm dia

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

177 µm2

500 µm

th ic k n ess

145 µm 27 µm (min)

26

25 µm 50 µm

15 µ m

145 µm

T I P D E TA I L

A1x32-Edge-5mm-20-177 A1x32-Edge-5mm-100-177 availab le p ac k ages

145 µm (max)

AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

145 µm (max) 3100 µm

5 mm

620 µm

177 µm2 (≈10x18 µm, rounded corners)

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

177 µm2 (≈12x15 µm, rounded corners)

th ic k n ess 145 µm

19 µm (min)

20 µm 40 µm

A1x32-Edge-5mm-20-177

27

28 µm (min)

100 µm 50 µm

A1x32-Edge-5mm-100-177

15 µ m

A1x32-6mm-50-177 A1x32-6mm-100-177 T I P D E TA I L

240 µm

availab le p ac k ages AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

Reference Site: 4200 µm2

500 µm 240 µm

240 µm (max)

3100 µm

6 mm

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

177 µm2 15 µm dia

1550 µm

th ic k n ess 33 µm (min)

100 µm

50 µm 50 µm

A1x32-6mm-50-177

28

A1x32-6mm-100-177

15 µ m 50 µ m

400 µm (max)

T I P D E TA I L

A1x32-Edge-10mm-20-177 A1x32-Edge-10mm-100-177 availab le p ac k ages

148 µm

AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

145 µm

3100 µm

10 mm

MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

620 µm 148 µm 177 µm2 (≈10x18 µm, rounded corners)

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P

177 µm2 (≈12x15 µm, rounded corners)

th ic k n ess 19 µm (min)

20 µm 40 µm

A1x32-Edge-10mm-20-177

29

28 µm (min)

100 µm 50 µm

A1x32-Edge-10mm-100-177

50 µ m

A1x32-15mm-50-177 A1x32-15mm-100-177 T I P D E TA I L

415 µm

15 mm

availab le p ac k ages

240 µm

AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

240 µm

3100 µm

Reference Site 4200 µm2

1000 µm

15 µm dia

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

1550 µm

240 µm 177 µm2

th ic k n ess 33 µm (min)

50 µm

50 µ m

100 µm 50 µm

A1x32-15mm-50-177

30

A1x32-15mm-100-177

A2x16-10mm-50-500-177 A2x16-10mm-100-500-177 availab le p ac k ages

T I P D E TA I L

400 µm

10 mm

AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

123 µm 1500 µm

Reference Site: 4200 µm2

177 µm2

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

15 µm dia 750 µm

1760 µm (50 µm spacing) 1000 µm (100 µm spacing) 123 µm

th ic k n ess 68 µm (min) 500 µm

100 µm

50 µm 50 µm

A2x16-10mm-50-500-177

31

A2x16-10mm-100-500-177

50 µ m

A4x8-5mm-50-200-177 A4x8-5mm-100-200-177 T I P D E TA I L

123 µm (max)

availab le p ac k ages AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

80 µm

700 µm

5 mm

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

4200 µm2 350 µm 177 µm2 15 µm dia 1000 µm

100 µm 50 µm

80 µm

200 µm

33 µm (min)

15 µ m

50 µm

A4x8-5mm-50-200-177

600 µm

32

th ic k n ess

A4x8-5mm-100-200-177

123 µm (max)

4200 µm2

T I P D E TA I L

A4x8-5mm-100-400-177 A4x8-5mm-100-400-703 availab le p ac k ages 80 µm

AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

177 µm2

703 µm2

700 µm

700 µm

5 mm 15 µm dia

30 µm dia

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

1000 µm

100 µm

80 µm 33 µm (min) 400 µm

1200 µm

15 µ m

50 µm

A4x8-5mm-100-400-177

33

th ic k n ess

A4x8-5mm-100-400-703

123 µm

T I P D E TA I L

A4x8-5mm-200-400-177 A4x8-5mm-200-400-703 availab le p ac k ages AC UT E A3 2

83 µm

C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

4200 µm2 1400 µm

177 µm2

5 mm

15 µm dia

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

500 µm 83 µm

200 µm

th ic k n ess 15 µ m

400 µm

33 µm (min)

1200 µm

34

50 µm

A8x8-Edge-5mm-50-150-177 T I P D E TA I L

availab le p ac k ages AC UT E A6 4 C HRONIC H6 4 _3 0 mm H6 4 L P_3 0 mm HC 6 4 _3 0 mm HZ6 4 _3 0 mm Z6 4

60 µm (max)

S MART S64 OP T OGE NE T IC S O A6 4 O A6 4 L P 350 µm

5 mm

MR-C OMPAT IBLE MR_H6 4 _3 0 mm MR_HC 6 4 _3 0 mm

177 µm2 50 µm 28 µm (min)

50 µm

150 µm

1050 µm

35

th ic k n ess 15 µ m

A8x8-Edge-5mm-100-200-177 T I P D E TA I L

availab le p ac k ages AC UT E A6 4 C HRONIC H6 4 _3 0 mm H6 4 L P_3 0 mm HC 6 4 _3 0 mm HZ6 4 _3 0 mm Z6 4

60 µm (max)

S MART S64

700 µm

OP T OGE NE T IC S O A6 4 O A6 4 L P MR-C OMPAT IBLE MR_H6 4 _3 0 mm MR_HC 6 4 _3 0 mm

5 mm 177 µm2

th ic k n ess

100 µm 28 µm (min)

50 µm 200 µm

1400 µm

36

15 µ m

T I P D E TA I L

A8x8-10mm-200-200-177

123 µm (max)

availab le p ac k ages

83 µm

AC UT E A6 4 C HRONIC H6 4 _3 0 mm H6 4 L P_3 0 mm HC 6 4 _3 0 mm HZ6 4 _3 0 mm Z6 4 OP T OGE NE T IC S O A6 4 O A6 4 L P 1400 µm

177 µm2

10 mm

15 µm dia

MR-C OMPAT IBLE MR_H6 4 _3 0 mm MR_HC 6 4 _3 0 mm

4200 µm2

500 µm

83 µm 200 µm

th ic k n ess 50 µ m

33 µm (min)

50 µm 200 µm

1400 µm

37

A1x16-Poly2-5mm-50s-177 200 µm

T I P D E TA I L

availab le p ac k ages AC UT E A1 6 C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6

68 µm

5 mm

375 µm

15 µm dia

OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

177 µm2

25 µm

68 µm

75 µm

th ic k n ess 15 µ m

68 µm 43.3 µm

38

Buzsaki16 availab le p ac k ages

T I P D E TA I L

52 µm (max)

AC UT E A1 6 C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6 OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

5 mm 52 µm (max)

37 µm MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

33 µm 29 µm 25 µm

160 µm2

21 µm 17 µm

140 µm

40 µm

29 µm (min)

th ic k n ess

20 µm 22 µm

52 µm (max)

200 µm

8.5 µm

39

15 µ m

A2x2-tet-3mm-150-150-121 A2x2-tet-10mm-150-150-121 T I P D E TA I L

95 µm (max)

availab le p ac k ages AC UT E A1 6

25 µm 121 µm2

C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6 OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

66 µm (max)

3 mm or 10 mm

150 µm

MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

78 µm

th ic k n ess

11 µm

58 µm (min)

15 µ m (3 mm o n l y ) 50 µ m (1 0 mm o n l y )

95 µm (max)

150 µm

40

A4x1-tet-3mm-150-121 T I P D E TA I L

83 µm (max)

availab le p ac k ages AC UT E A1 6 C HRONIC C M1 6 L P H1 6 _2 1 mm HC 1 6 _2 1 mm HZ1 6 _2 1 mm Z1 6 OP T OGE NE T IC S O A1 6 O A1 6 L P O C M1 6 O C M1 6 L P O Z1 6 O Z1 6 L P

3 mm 121 µm2

MR-C OMPAT IBLE MR_C M1 6 MR_H1 6 _2 1 mm MR_HC 1 6 _2 1 mm

25 µm

11 µm

th ic k n ess

58 µm (max)

75 µm

83 µm (max) 150 µm

450 µm

41

15 µ m

200 µm (max)

T I P D E TA I L

A1x32-Poly2-5mm-50s-177 availab le p ac k ages AC UT E A3 2

113 µm

C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2 50 µm

775 µm

5 mm

MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

15 µm dia

177 µm2 50 µm

113 µm

th ic k n ess

25 µm

68 µm (min)

75 µm

43.3 µm

42

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P

15 µ m

A1x32-Poly3-5mm-25s-177 T I P D E TA I L

200 µm (max)

availab le p ac k ages AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

114 µm

275 µm

5 mm 15 µm dia

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

177 µm2 25 µm

62 µm (min)

th ic k n ess 22 µm

114 µm 18 µm

43

62 µm

15 µ m

400 µm (max)

T I P D E TA I L

A1x32-Poly2-10mm-50s-177 availab le p ac k ages AC UT E A3 2

114 µm

C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2 50 µm

10 mm

775 µm

MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

15 µm dia

177 µm2 50 µm

th ic k n ess

25 µm

68 µm (min)

75 µm

113 µm

43.3 µm

44

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P

50 µ m

A1x32-Poly3-10mm-50-177 availab le p ac k ages

T I P D E TA I L

400 µm (max)

AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

125 µm

10 mm

550 µm

15 µm dia

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

177 µm2

125 µm (min)

50 µm

100 µm

th ic k n ess 50 µ m

125 µm 50 µm

45

A4x2-tet-5mm-150-200-121 T I P D E TA I L

95 µm (max)

availab le p ac k ages AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2 OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P

25 µm

66 µm (max)

5 mm 4200 µm2

121 µm2

150 µm

MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

11 µm 1000 µm

58 µm (min)

th ic k n ess 78 µm

95 µm (max) 600 µm

200 µm

46

15 µ m

A4x2-tet-5mm-500-400-121 T I P D E TA I L

95 µm (max)

availab le p ac k ages AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

66 µm (max)

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P

4200 µm2

5 mm 500 µm

MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

121 µm2 1000 µm 25 µm

th ic k n ess

11 µm

58 µm (min)

78 µm

1200 µm

400 µm

47

15 µ m

Buzsaki32 T I P D E TA I L

52 µm (max)

availab le p ac k ages AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2 OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P

5 mm

52 µm (max)

37 µm MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

33 µm 29 µm 25 µm

160 µm2

21 µm 17 µm

140 µm

40 µm

29 µm (min)

th ic k n ess

20 µm 22 µm

600 µm

200 µm

8.5 µm

48

15 µ m

Buzsaki32L availab le p ac k ages

T I P D E TA I L

160 µm (max)

AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2 OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P

4200 µm2

10 mm

52 µm

37 µm MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

33 µm 29 µm 25 µm

4.2 mm

160 µm2

21 µm 17 µm

140 µm

40 µm

29 µm (min)

th ic k n ess

20 µm 22 µm

600 µm

200 µm

8.5 µm

49

50 µ m

A8x1-tet-2mm-200-121 T I P D E TA I L

availab le p ac k ages 4200 µm2

AC UT E A3 2 C HRONIC C M3 2 H3 2 _2 1 mm HC 3 2 _2 1 mm HZ3 2 _2 1 mm Z3 2

83 µm (max) 500 µm

OP T OGE NE T IC S O A3 2 O A3 2 L P O C M3 2 O C M3 2 L P O Z3 2 O Z3 2 L P MR-C OMPAT IBLE MR_C M3 2 MR_H3 2 _2 1 mm MR_HC 3 2 _2 1 mm

2 mm 121 µm2 25 µm

th ic k n ess

11 µm

58 µm (max)

75 µm 200 µm

1400 µm

50

15 µ m

Buzsaki64 T I P D E TA I L

availab le p ac k ages AC UT E A6 4 C HRONIC H6 4 _3 0 mm H6 4 L P_3 0 mm HC 6 4 _3 0 mm HZ6 4 _3 0 mm S64 Z6 4

52 µm (max)

OP T OGE NE T IC S O A6 4 O A6 4 L P

52 µm (max)

MR-C OMPAT IBLE MR_H6 4 _3 0 mm MR_HC 6 4 _3 0 mm

37 µm 33 µm

5 mm

29 µm 25 µm

160 µm2

21 µm 17 µm

140 µm

40 µm

29 µm (min)

th ic k n ess

20 µm 22 µm

1400 µm

200 µm

8.5 µm

51

15 µ m

Buzsaki64L T I P D E TA I L

160 µm (max)

availab le p ac k ages AC UT E A6 4 C HRONIC H6 4 _3 0 mm H6 4 L P_3 0 mm HC 6 4 _3 0 mm HZ6 4 _3 0 mm S64 Z6 4 OP T OGE NE T IC S O A6 4 O A6 4 L P

10 mm

52 µm

MR-C OMPAT IBLE MR_H6 4 _3 0 mm MR_HC 6 4 _3 0 mm

37 µm 33 µm 29 µm 25 µm

160 µm2

21 µm 17 µm

140 µm

40 µm

29 µm (min)

th ic k n ess

20 µm 22 µm

1400 µm

200 µm

8.5 µm

52

50 µ m

A4x4-tet-5mm-150-200-121 T I P D E TA I L

availab le p ac k ages AC UT E A6 4 C HRONIC H6 4 _3 0 mm H6 4 L P_3 0 mm HC 6 4 _3 0 mm HZ6 4 _3 0 mm Z6 4

100 µm (max)

25 µm

S MART S64 OP T OGE NE T IC S O A6 4 O A6 4 L P

121 µm2 450 µm

5 mm

MR-C OMPAT IBLE MR_H6 4 _3 0 mm MR_HC 6 4 _3 0 mm

11 µm

150 µm

58 µm

th ic k n ess 50 µm

200 µm

600 µm

53

15 µ m

A4x16-Poly2-5mm-20s-lin-160 T I P D E TA I L

availab le p ac k ages AC UT E A6 4 C HRONIC H6 4 _3 0 mm H6 4 L P_3 0 mm HC 6 4 _3 0 mm HZ6 4 _3 0 mm Z6 4

60 µm

S MART S64 OP T OGE NE T IC S O A6 4 O A6 4 L P MR-C OMPAT IBLE MR_H6 4 _3 0 mm MR_HC 6 4 _3 0 mm

5 mm 160 µm2

130 µm

100 µm

20 µm 100 µm

35 µm

100 µm

th ic k n ess

40 µm

15 µ m

17.32 µm 450 µm

150 µm

54

A4x16-Poly2-5mm-23s-200-177 T I P D E TA I L

availab le p ac k ages AC UT E A6 4 C HRONIC H6 4 _3 0 mm H6 4 L P_3 0 mm HC 6 4 _3 0 mm HZ6 4 _3 0 mm Z6 4

86 µm (max)

S MART S64

15 µm dia

OP T OGE NE T IC S O A6 4 O A6 4 L P

177 µm2 345 µm

5 mm

MR-C OMPAT IBLE MR_H6 4 _3 0 mm MR_HC 6 4 _3 0 mm

46 µm 52 µm (min)

th ic k n ess

23 µm 50 µm

200 µm

600 µm

30 µm

55

15 µ m

A8x16-Edge-5mm-50-150-177 T I P D E TA I L

availab le p ac k ages S MART H1 2 8 S128

76 µm (max)

750 µm Note: Given the high channel count of this design, there may be up to 15% irregular sites on the assembled device

5 mm

177 µm2

th ic k n ess 50 µm 28 µm (min) 1050 µm

150 µm

56

15 µ m 50 µm

A8x16-Edge-5mm-100-200-177 T I P D E TA I L

availab le p ac k ages S MART H1 2 8 S128

76 µm (max)

1500 µm

5 mm

Note: Given the high channel count of this design, there may be up to 15% irregular sites on the assembled device

177 µm2

th ic k n ess 15 µ m

100 µm

28 µm (min) 1400 µm

50 µm 200 µm

57

A8x32-Edge-5mm-25-200-177 T I P D E TA I L

availab le p ac k ages S MART H2 5 6 S256

93 µm (max)

1550 µm Note: Given the high channel count of this design, there may be up to 15% irregular sites on the assembled device

5 mm 177 µm2

th ic k n ess 27 µm (min)

25 µm

200 µm

1400 µm

58

15 µ m 50 µm

T I P D E TA I L

Buzsaki256 availab le p ac k ages

90 µm

S MART H2 5 6 S256

200 µm (max)

Note: Given the high channel count of this design, there may be up to 15% irregular sites on the assembled device

5 mm 160 µm2

th ic k n ess

1600 µm

15 µ m

50 µm

2100 µm

13 µm

59

300 µm

A4x32-Poly2-5mm-20s-lin-160 T I P D E TA I L

availab le p ac k ages S MART H1 2 8 S128

77 µm

290 µm

5 mm

Note: Given the high channel count of this design, there may be up to 15% irregular sites on the assembled device

100 µm

160 µm2

20 µm

100 µm

100 µm

th ic k n ess 35 µm

450 µm

15 µ m

17.32 µm

60

150 µm

A4x32-Poly2-5mm-23s-200-177 T I P D E TA I L

availab le p ac k ages S MART H1 2 8 S128

100 µm (max)

713 µm

5 mm

Note: Given the high channel count of this design, there may be up to 15% irregular sites on the assembled device

15 µm dia 177 µm2

46 µm 52 µm (min)

th ic k n ess

23 µm 50 µm

200 µm

600 µm

30 µm

61

15 µ m

A8x4-tet-5mm-150-200-121 T I P D E TA I L

availab le p ac k ages S MART H1 2 8 S128

100 µm (max) 25 µm

121 µm2 450 µm

5 mm

Note: Given the high channel count of this design, there may be up to 15% irregular sites on the assembled device

11 µm

150 µm

58 µm

th ic k n ess 50 µm

200 µm

1400 µm

62

15 µ m

A8x16-Poly2-5mm-20s-lin-160 T I P D E TA I L

availab le p ac k ages S MART H1 2 8 S128

Note: Given the high channel count of this design, there may be up to 15% irregular sites on the assembled device

5 mm 160 µm2

130 µm

20 µm

100 µm

35 µm

100 µm

th ic k n ess

100 µm

40 µm

15 µ m

17.32 µm 1050 µm

150 µm

63

A4x64-Poly2-5mm-23s-250-177 T I P D E TA I L

availab le p ac k ages S MART H2 5 6 S256

177 µm (max)

1449 µm

15 µm dia

5 mm

Note: Given the high channel count of this design, there may be up to 15% irregular sites on the assembled device

177 µm2

th ic k n ess 52 µm (min) 750 µm

23 µm

50 µm 250 µm

64

15 µ m

46 µm

A8x32-Poly2-5mm-20s-lin-160 T I P D E TA I L

availab le p ac k ages S MART H2 5 6 S256

77 µm

290 µm Note: Given the high channel count of this design, there may be up to 15% irregular sites on the assembled device

160 µm2

5 mm

20 µm 100 µm 100 µm 100 µm

th ic k n ess 35 µm

1050 µm

15 µ m

17.32 µm

65

150 µm

T I P D E TA I L

Mouse EEG

1.77 mm

500 µm diameter Platinum sites (1.5, 2.3)

(0.5, 2.3)

(1.93, 1.04)

(3.5, -0.48)

BREGMA (0, 0)

(0.55, 1.04)

(2.12, -0.48)

7.85 mm

21 mm (4.05, -1.96)

9.32 mm

(4.13, -3.04)

(4.05, -4.14)

(2.88, -1.96)

(1.12, -1.96)

(2.88, -3.04)

(1.33, -3.04)

(2.24, -4.14)

(1.0, -4.14)

1.71 mm

(2.20, -6.0)

700 µm x 700 µm Platinum Reference Sites

66

1.3 mm

th ic k n ess 20 µ m

C3

T I P D E TA I L

4 mm

1500 µm 1000 µm

Cuff array can be pre-curved to nerve diameter

850 µm 30 mm 1.05 mm

500 µm

1.05 mm

850 µm

th ic k n ess 20 µ m C3 Cuff designed for 350 µm diameter nerve (customizable)

67

9 mm

T I P D E TA I L

C24

9 mm

1.5 mm

3 mm

353 µm

50 mm 4.475 mm

Holes for penetrating arrays

th ic k n ess C24 Cuff designed for 900 µm diameter nerve.

20 µ m

Sites: 260 µm x 660 µm

68

T I P D E TA I L

E16-20mm-100-177 (Drug Delivery Array) 100 µm

availab le p ac k ages AC UT E D1 6 C HRONIC DM1 6

20 mm 1500 µm

69

0.84 mm

T I P D E TA I L

E16-500-5-200 availab le p ac k ages

1.8 mm 1500 µm

C HRONIC H1 6 HC 1 6 HZ1 6

1500 µm 200 µm 180 µm 500 µm

1.97 mm 500 µm

31,416 µm2

5 mm

th ic k n ess 20 µ m

70

T I P D E TA I L

E32-300-20-50 availab le p ac k ages

1.3 mm 900 µm

C HRONIC H3 2 HC 3 2 HZ3 2

125 µm 300 µm

300 µm

50 µm

20 mm

2100 µm

2.5 mm

th ic k n ess 20 µ m 1,963 µm

2

0.67 mm

71

T I P D E TA I L

E32-600-10-100 availab le p ac k ages

3.6 mm

C HRONIC H3 2 HC 3 2 HZ3 2

250 µm

3.6 mm

600 µm

800 µm

100 µm dia

600 µm

10 mm

3000 µm

7,854 µm2

3000 µm

th ic k n ess 20 µ m

0.69 mm

72

E32-1000-30-200 T I P D E TA I L

availab le p ac k ages C HRONIC H3 2 HC 3 2 HZ3 2

7.4 mm

3000 µm

30 mm

450 µm

200 µm

1000 µm

1000 µm

3.875 mm 31,416 µm2

7000 µm

th ic k n ess 20 µ m

1.64 mm

73

E32-2000-30-100 T I P D E TA I L

availab le p ac k ages C HRONIC H3 2 HC 3 2 HZ3 2

10.7 mm

1600 µm

300 µm

2000 µm

30 mm

5600 µm

100 µm 10.7 mm

2000 µm

10,000 µm

7,854 µm2

th ic k n ess 20 µ m 10,000 µm 1.31 mm

74

E32-3000-20-300 availab le p ac k ages

T I P D E TA I L

10.2 mm

C HRONIC H3 2 HC 3 2 HZ3 2

300 µm 800 µm

3000 µm 3000 µm 24.4 mm

21,000 µm 70,686 µm2

20 mm

9000 µm

th ic k n ess 20 µ m

1.635 mm

75

T I P D E TA I L

E64-500-20-60 2500 µm 60 µm

5.25 mm

C HRONIC H6 4 H6 4 L P HC 6 4 HZ6 4

200 µm

500 µm

20 mm

availab le p ac k ages

2.75 mm

500 µm

5000 µm

th ic k n ess 20 µ m 2,827 µm

2

2.6 mm

76

CS2x2x4-accord-4000-150-575 T I P D E TA I L

4000 µm

4000 µm

4976 µm

7.98 mm

150 mm cable (1 mm width)

575 µm2

th ic k n ess 20 µ m

77

CS2x8-sp-4000-150-275-6-150-600 CS2x8-sp-4000-275-400-4-150-600 T I P D E TA I L

4000 µm

4000 µm

11.9 mm

Spirals flex with movement Dimensions:

150 mm cable (1 mm width)

35.7 mm

150 µm width 275 µm pitch 6 turns OR 275 µm wide 400 µm pitch 4 turns 600 µm diameter

th ic k n ess 20 µ m

78

T I P D E TA I L

CS8x8-seg-2000-150-575 CS8x8-seg-4000-150-575

1000 µm diameter

14,976 µm

575 µm diameter 150 mm cable (1.4 mm width)

2000 µm

th ic k n ess 2000 µm

20 µ m Shown: 2000 µm site spacing

79

T I P D E TA I L

CS8x8-sol-200-60-50

200 µm

200 µm

1.64 mm

2 mm

150 mm cable (1.3 mm width)

50 µm diameter

th ic k n ess 20 µ m

80

T I P D E TA I L

CS8x8-sol-2000-150-575 CS8x8-sol-4000-150-575

1000 µm diameter

14,976 µm

575 µm diameter

2000 µm

th ic k n ess 2000 µm

20 µ m Shown: 2000 µm site spacing

81

M4x8-0.75mm-Buz-600

*Select designs shown. More array designs available at neuronexus.com.

T I P D E TA I L

availab le p ac k ages S MALL ANIMAL Acu te Y- Bracke t S mall An imal C h ro n ic P RIMAT E Pe d e s tal MRI-c o mpatible

52 µm (max) 0.75 mm

52 µm

37 µm 600 µm

33 µm

1800 µm

29 µm

160 µm2

25 µm 21 µm 17 µm 32 µm (min)

40 µm 20 µm 35 µm

8.5 µm

82

175 µm

th ic k n ess 50 µ m

M4x8-2mm-200-400-703 T I P D E TA I L

*Select designs shown. More array designs available at neuronexus.com.

availab le p ac k ages S MALL ANIMAL Acu te Y- Bracke t S mall An imal C h ro n ic

81 µm (max)

P RIMAT E Pe d e s tal 81 µm (max)

MRI-c o mpatible

1400 µm

2 mm

703 µm2

th ic k n ess 50 µ m

200 µm 400 µm 28 µm (min)

1200 µm

83

41 µm

M4x8-5mm-25s-Poly3-200-177

*Select designs shown. More array designs available at neuronexus.com.

79 µm (max)

T I P D E TA I L

availab le p ac k ages S MALL ANIMAL Acu te Y- Bracke t S mall An imal C h ro n ic P RIMAT E Pe d e s tal MRI-c o mpatible

5 mm

79 µm (max) 50 µm 25 µm 74 µm (min) 177 µm2

110 µm

th ic k n ess 50 µ m

200 µm 600 µm

84

M4x8-10mm-100-200-177

77 µm (max)

T I P D E TA I L

*Select designs shown. More array designs available at neuronexus.com.

availab le p ac k ages S MALL ANIMAL Acu te Y- Bracke t S mall An imal C h ro n ic 77 µm (max)

P RIMAT E Pe d e s tal MRI-c o mpatible

10 mm

700 µm

177 µm2

th ic k n ess 100 µm 23 µm (min)

200 µm

600 µm

85

50 µ m 38 µm

3.4 mm 2.75 mm

EM32-400-600-58-200 T I P D E TA I L

*Select designs shown. More array designs available at neuronexus.com.

availab le p ac k ages Matrix Array Platform (400 µm shank spacing, 600 µm platform spacing)

400 µm

S MALL ANIMAL Acu te Y- Bracke t S mall An imal C h ro n ic P RIMAT E Pe d e s tal MRI-c o mpatible

600 µm

58 mm 200 µm (dia) 100 µm (dia)

31,420 µm2

th ic k n ess 20 µ m

86

V1x16-Edge-10mm-100-177 T I P D E TA I L

115 µm (max)

availab le p ac k ages

115 µm (max)

AC UT E V1 6 - 6 0 - 5 0 V1 6 - 1 0 0 - 5 0 V1 6 - 6 0 - 2 0 0 V1 6 - 1 0 0 - 2 0 0 ( Pa ck a g e - L e n g t h - Th i ck n e s s )

10 mm 1500 µm

177 µm2

th ic k n ess 100 µm 20 µm (min)

87

40 µm

50 µ m 200 µ m - Du ra pe ne trating

V1x16-Poly2-10mm-50s-177 102 µm (max)

T I P D E TA I L

availab le p ac k ages AC UT E V1 6 - 6 0 - 5 0 V1 6 - 1 0 0 - 5 0 V1 6 - 6 0 - 2 0 0 V1 6 - 1 0 0 - 2 0 0 ( Pa ck a g e - L e n g t h - Th i ck n e s s )

102 µm (max)

25 µm 50 µm

10 mm

50 µm 375 µm

177 µm2 68 µm (min)

50 µ m 200 µ m - Du ra pe ne trating

75 µm

43.3 µm

88

th ic k n ess

175 µm (max)

T I P D E TA I L

V1x32-Edge-10mm-60-177 availab le p ac k ages

175 µm (max)

AC UT E V3 2 - 6 0 - 5 0 V3 2 - 1 0 0 - 5 0 V3 2 - 6 0 - 2 0 0 V3 2 - 1 0 0 - 2 0 0 ( Pa ck a g e - L e n g t h - Th i ck n e s s )

10 mm 1860 µm

177 µm2

20 µm (min)

89

60 µm 40 µm

th ic k n ess 50 µ m 200 µ m - Du ra pe ne trating

V1x32-Edge-15mm-100-177 T I P D E TA I L

175 µm (max)

availab le p ac k ages 175 µm (max)

AC UT E V3 2 - 6 0 - 5 0 V3 2 - 1 0 0 - 5 0 V3 2 - 6 0 - 2 0 0 V3 2 - 1 0 0 - 2 0 0 ( Pa ck a g e - L e n g t h - Th i ck n e s s )

15 mm 3100 µm

177 µm2

20 µm (min)

90

100 µm 40 µm

th ic k n ess 50 µ m 200 µ m - Du ra pe ne trating

V1x32-Poly2-15mm-50s-177 T I P D E TA I L

184 µm (max) 184 µm (max)

availab le p ac k ages AC UT E V3 2 - 6 0 - 5 0 V3 2 - 1 0 0 - 5 0 V3 2 - 6 0 - 2 0 0 V3 2 - 1 0 0 - 2 0 0 ( Pa ck a g e - L e n g t h - Th i ck n e s s )

15 mm

775 µm

50 µm

177 µm2

50 µm

75 µm (min)

25 µm

50 µ m 200 µ m - Du ra pe ne trating

75 µm

43.3 µm

91

th ic k n ess

T I P D E TA I L

V1x64-Edge-10mm-50-177 V1x64-Edge-10mm-100-177 availab le p ac k ages

276 µm

AC UT E V6 4 - 6 0 - 5 0 V6 4 - 6 0 - 2 0 0 ( Pa ck a g e - L e n g t h - Th i ck n e s s )

177 µm2

3150 µm (50 µm spacing) 6300 µm (100 µm spacing)

10 mm

50 µm or 100 µm

th ic k n ess 20 µm (min)

40 µm

92

50 µ m 200 µ m - Du ra pe ne trating

Q1x1-tet-3mm-121 Q1x1-tet-5mm-121 Q1x1-tet-10mm-121

3 mm, 5 mm, or 10 mm

availab le p ac k ages

T I P D E TA I L

83 µm (max)

AC UT E Q4 C HRONIC CQ4 HQ 4 _2 1 mm

121 µm2 25 µm

11 µm 83 µm (max)

th ic k n ess 120 µm

93

15 µ m (3 mm, 5 mm) 50 µ m (3 mm, 5 mm, 1 0 mm)

83 µm (max)

T I P D E TA I L

Q1x4-3mm-50-177 Q1x4-3mm-100-177 availab le p ac k ages AC UT E Q4 83 µm (max)

C HRONIC CQ4 HQ 4 _2 1 mm

15 µm

300 µm

3 mm 150 µm 100 µm 50 µm 52 µm (min) 100 µm

th ic k n ess 15 µ m 50 µ m

A1x4-3mm-50-177

94

A1x4-3mm-100-177

Q1x4-5mm-50-177 Q1x4-5mm-100-177 Q1x4-5mm-200-177 availab le p ac k ages

T I P D E TA I L

83 µm (max)

AC UT E Q4 C HRONIC CQ4 HQ 4 _2 1 mm

5 mm 600 µm 83 µm (max) 15 µm 300 µm 200 µm 150 µm

100 µm

th ic k n ess

50 µm 52 µm (min)

15 µ m 50 µ m

100 µm

Q1x4-5mm-50-177

95

Q1x4-5mm-100-177

Q1x4-5mm-200-177

Q1x4-10mm-50-177 Q1x4-10mm-100-177 Q1x4-10mm-200-177

83 µm (max)

T I P D E TA I L

availab le p ac k ages AC UT E Q4 C HRONIC CQ4 HQ 4 _2 1 mm

10 mm

600 µm

83 µm (max)

15 µm 300 µm 200 µm 150 µm 100 µm

th ic k n ess

50 µm 52 µm (min)

50 µ m

100 µm

Q1x4-10mm-50-177

96

Q1x4-10mm-100-177

Q1x4-10mm-200-177

Special Order The list below is a library of unique designs that can be placed on special order. (Selected designs are detailed on the following pages.) Special orders are subject to availability and may require a minimum order quantity. Please be advised that out-of-stock designs may take a longer time for delivery. Standard designs with alternative site areas (such as 312, 413, and 703 Âľm2) and thickness options may also be placed on special order. For further details, contact a NeuroNexus sales representative. A1x4-tet-1.6mm-150-121

A1x32-7mm-100-1250

A2x32-Poly5-10mm-20s-200-100

A4x8-5mm-50-400-177

A8x8-2.5mm-200-200-703

A1x5-1.68mm-200-500-177

A1x32-10mm-100-413

A4x2-tet-5mm-150-200-312

A4x8-5mm-50-400-413

A8x8-5mm-200-200-177

A1x8-4mm-200-1250

A1x32-10mm-100-703

A4x2-tet-5mm-500-400-312

A4x8-5mm-50-400-703

A8x8-5mm-200-200-413

A1x16-3mm-100-413

A1x32-10mm-50-413

A4x2tet-7mm-500-400-312

A4x8-8mm-100-500-177

A8x8-5mm-200-200-703

A1x16-3mm-50-413

A1x32-10mm-50-703

A4x2tet-9mm-1500-170-121

A4x8-8mm-100-500-703

A8x16-3mm-75-200-177

A1x16-5mm-100-413

A1x32-Edge-10mm-100-413

A4x4-3mm-50-125-413

A4x8-10mm-200-200-413

Buzsaki32sp

A1x16-5mm-150-413

A1x32-Edge-10mm-100-703

A4x4-3mm-50-125-703

A4x8-10mm-50-200-VAR

Buzsaki64sp

A1x16-5mm-50-413

A1x32-Poly3-10mm-25s-177

A4x4-3mm-100-125-413

A4x16-3.6/3mm-50-430-177

Buzsaki256

A1x16-Poly2-5mm-50-177

A1x32-Poly3-10mm-50-413

A4x4-3mm-200-200-177

A4x16-5mm-50-500-703

E1x21-27.8mm-250-1800

A1x16-10mm-100-413

A1x32-12mm-dia-413

A4x8-10mm-200-200-177

A8x1tet-2mm-200-312

E16-500-10-VAR

A1x16-10mm-100-703-Pt

A1x32-15mm-100-413

A4x8-10mm-200-200-703

A8x4-2mm-100-200-177

E16-barrel-6-100

A1x16-Poly2-10mm-100-625

A1x32-15mm-100-703

A4x8-10mm-200-500-413

A8x4-2mm-100-200-413

E32-80s-15-15

A16x1-2mm-50-413

A1x32-15mm-50-413

A4x8-4mm-200-400-1250

A8x4-2mm-100-200-703

E32-1000-20-50/100

A16x1-2mm-50-703

A1x32-15mm-50-703

A4x8-5mm-100-200-413

A8x4-2mm-200-200-177

LFP8-TetrodeSD

A16x1-2mm-100-413

A1x64-Poly2-6mm-235-160

A4x8-5mm-100-200-703

A8x4-2mm-200-200-413

Isomura2

A16x1-2mm-100-703

A2x2-tet-3mm-150-150-312

A4x8-5mm-100-400-413

A8x4-2mm-200-200-703

Isomura32

A1x32-Edge-5mm-100-413

A2x8-11mm-125-200-177

A4x8-5mm-200-200-177

A8x4-2mm-50-200-177

rDBSA

A1x32-Edge-5mm-100-703

A2x16-10mm-100-500-413

A4x8-5mm-200-200-413

A8x4-2mm-50-200-413

A1x32-6mm-100-413

A2x16-10mm-100-500-703

A4x8-5mm-200-200-703

A8x4-2mm-50-200-703

A1x32-6mm-100-703

A2x16-10mm-50-500-413

A4x8-5mm-200-400-413

A8x8-10mm-200-200-413

A1x32-6mm-50-413

A2x16-10mm-50-500-703

A4x8-5mm-200-400-703

A8x8-10mm-200-200-703

A1x32-6mm-50-703

A2x32-6mm-235-160

A4x8-5mm-50-200-413

A8x8-2.5mm-200-200-177

A1x32-6mm-50-95

A4x1-tet-3mm-150-312

A4x8-5mm-50-200-703

A8x8-2.5mm-200-200-413

97

A1x8-2.5mm-150-413

A3x5-1.68mm-200-500-177 NOTE: Sharp tip angle (18°)

1050 µm

2.5 mm

413 µm2 59 µm (tapers to 100 µm+)

1.68 mm 1000 µm

625 µm2 200 µm

150 µm 32 µm

125 µm 1000 µm

98

232 µm

LFP8-TetrodeSD

Isomura2

400 µm

127 µm

1200 µm

Tetrode Site Area: 312 µm2 Tetrode Spacing: 25 µm Other Site Area: 413 µm2 10 mm 5 mm 413 µm2

250 µm 150 µm 3920 µm 260 µm2 1185 µm

25 µm

100 µm 75 µm

100 µm

99

600 µm

A1x16-Poly2-5mm-50-STD-177

A1x16-Poly2-10mm-100-625 NOTE: Pt site configuration may be available for electrochemical studies

420 µm

136 µm

200 µm 68 µm

10 mm

700 µm

625 µm2

350 µm 5 mm 177 µm2

100 µm 50 µm

129 µm

68 µm 1000 µm

75 µm

50 µm

178 µm

100 µm

100

A1x4-tet-1.6mm-150-121

A2x8-11mm-125-200-177

NOTE: Designed to interface with wire-based tetrode drives. Also available in a 3-tetrode configuration.

84 µm

64 µm 121 µm2

42.5 µm

450 µm 11 mm

875 µm

84 µm

177 µm2

150 µm 1.6 mm 125 µm

69 µm 27 µm

50 µm

50 µm 200 µm

101

A4x4-3mm-200-200-177

A1x32-7mm-100-1250

240 µm

240 µm

74.8 µm 3100 µm

4200 µm2 1250 µm2

177 µm2

3 mm

7 mm

500 µm

600 µm

200 µm

33 µm

600 µm

50 µm 43 µm

200 µm

102

100 µm 72 µm

A1x32-12mm-dia-413

A1x32-Poly3-10mm-25s-177

400 µm

210 µm

177 µm2 10 mm

12 mm

117 µm

550 µm

413 µm2

275 µm

50 µm

68 µm

25 µm 68 µm 62 µm

100 µm 25 µm 50 µm

103

Isomura32

A4x8-8mm-100-500-703

4200 µm2

200 µm

121 µm

151 µm

300 µm

312 µm2 1050 µm

7 mm

700 µm

150 µm

150 µm

69 µm

8 mm 703 µm2 129 µm

91 µm

1000 µm

100 µm

900 µm 33 µm

61 µm

50 µm

250 µm

1500 µm

104

A4x8-10mm-50-200-VAR

A4x8-10mm-200-200-413

59 µm

150 µm 53 µm 25 µm2

50 µm2

70 µm2 1400 µm

100 µm2

350 µm

10 mm

10 mm

50 µm

2

25 µm2 413 µm2 25 µm2

25 µm2

500 µm

50 µm

200 µm

11 µm 50 µm

33 µm

600 µm

600 µm

105

50 µm 200 µm

A4x2-tet-7mm-500-400-312

A4x2-tet-9mm-1500-170-121 74.8 µm

95 µm

312 µm2

1500 µm

500 µm

9 mm

7 mm

1500 µm

1000 µm

83 µm 50 µm

65.2 µm 121 µm2

1200 µm

510 µm

106

170 µm

A8x4-2mm-50-200-177 A8x4-2mm-100-200-177 A8x4-2mm-200-200-177

A1x64-Poly2-6mm-23s-160 NOTE: High Density Design. May contain up to 15% irregular sites.

53 µm 115 µm

23 µm

60 µm

150 µm, 300 µm, or 450 µm

177 µm2

160 µm2

6 mm

2 mm

30 µm 25 µm

50 µm, 100 µm, or 200 µm

19 µm 33 µm

27 µm

1400 µm

1449 µm

50 µm 200 µm

107

22 µm

A2x32-5mm-25-200-177

A2x32-Poly2-6mm-23s-200-160 NOTE: High Density Design. May contain up to 15% irregular sites.

97 µm

775 µm 23 µm

5.27 mm 5 mm

6 mm 30 µm 177 µm2

25 µm 19 µm

25 µm 33 µm 27 µm

22 µm 50 µm

200 µm

200 µm

108

A8x8-5mm-200-160

A2x32-Poly5-10mm-20s-200-100

52 µm

37 µm

99 µm

33 µm

10 mm 29 µm 5 mm 25 µm

170 µm

21 µm 60 µm 17 µm 20 µm

30 µm

100 µm2

28 µm (min)

200 µm

200 µm

109

22 µm 8.5 µm

A4x16-3.6/3mm-50-430-177

A4x16-5mm-50-500-703

69 µm

750 µm

750 µm

117 µm 703 µm2

3 mm

5 mm

1000 µm

3.6 mm

177 µm2

50 µm

600 µm

1000 µm

50 µm 33 µm

28 µm 1290 µm

50 µm 430 µm

1500 µm

110

A8x8-2.5mm-200-200-177 A8x8-2.5mm-200-200-703 A8x8-5mm-200-200-177 A8x8-5mm-200-200-703

A8x16-3mm-75-200-413 NOTE: High Density Design - mates to a custom A-style board. May contain up to 15% irregular sites.

60 µm

73 µm

1400 µm

1125 µm

177 µm2 or 703 µm2

100 µm

200 µm 2.5 mm/ 5 mm

413 µm2 3 mm

200 µm

75 µm 33 µm 1400 µm

25 µm

50 µm 200 µm

1400 µm

111

50 µm 200 µm

A5x12-Poly2-5mm-20s-lin-160

E16-Barrel-6-100 NOTE: Site arrangement mapped for a rat barrel cortex based on Polley Nature 2004 paper

6 mm

0.35 mm 160 µm2

5 mm

7,854 µm2

130 µm

370 µm

100 µm

35 µm

17.32 µm 800 µm

112

E16-500-10-VAR

E1x27-27.8-250-1800

NOTE: Designed for investigating the relationship between site area and recorded ECoG

NOTE: Designed for cochlear use. The probe substrate is designed to be flexible to allow for integrating with a customized carrier to fit the user’s specific application.

5 mm

1500 µm

0.84 mm 600 µm dia

400 µm 500 µm

200 µm dia 500 µm

250 µm

1500 µm

100 µm dia

1800 µm2

50 µm dia

10 mm

113

27.8 mm

E32-1000-20-50/100 NOTE: Designed with alternating site arrangements for stimulation and recording

5.45 mm 1000 µm

1.68 mm 1000 µm 6500 µm

8.68 mm

500 µm

1,963 µm2 50 µm dia (for recording) 7,854 µm2 100 µm dia (for stimulation)

20 mm 4000 µm

114

114