New fabrication method for micro-pyramidal vertical probe array for probe cards

Lin, Tsung‐Hung; Yang, Hsiharng; Chao, Ching‐Kong; Yeh, Mau‐Shiun

doi:10.1007/s00542-009-0964-5

Cited by 5 publications

(5 citation statements)

References 14 publications

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“…probe tips, the vertical type, based on the array from standing probe tips vertically [4,5,8,9], and the MEMS type, which forms probe tips by using micromachining technologies [10][11][12][13]. Until now, conventional cantilever-type probe cards have frequently been used, which are fabricated manually.…”

Section: Mems/nano Fabrication Center Busan Techno-park Busan 609-7mentioning

confidence: 99%

“…Vertical probe cards are more advantageous in tests of semiconductor devices with areaarray pads, and more convenient for the repair of probe pins. But, large pitches between the probe tips make these cards unsuitable for the tests involving applications to various semiconductor devices [4,5]. However, MEMS probe cards can be fabricated using variously shaped probes, which are made by MEMS process.…”

Section: Mems/nano Fabrication Center Busan Techno-park Busan 609-7mentioning

confidence: 99%

“…The probe card is increasingly of more and more importance [1][2][3]. As memories show increasingly higher levels of performance, and system large scale integrated circuit (LSI) devices offer increasingly higher densities, the sizes of semiconductor devices are relatively decreasing, resulting in reduced pad sizes, and fine pitches between pads [4,5]. Therefore, test systems to judge whether integrated circuit (IC) chips on a wafer are nondefective or defective also need to be developed rapidly, in line with semiconductor development technologies.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Highly Productive Process Technologies of Cantilever-type Microprobe Arrays for Wafer Level Chip Testing

Lim¹,

Ryu²,

Choi³

2013

Transactions on Electrical and Electronic Materials

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This paper describes the highly productive process technologies of microprobe arrays, which were used for a probe card to test a Dynamic Random Access Memory (DRAM) chip with fine pitch pads. Cantilever-type microprobe arrays were fabricated using conventional micro-electro-mechanical system (MEMS) process technologies. Bonding material, gold-tin (Au-Sn) paste, was used to bond the Ni-Co alloy microprobes to the ceramic space transformer. The electrical and mechanical characteristics of a probe card with fabricated microprobes were measured by a conventional probe card tester. A probe card assembled with the fabricated microprobes showed good x-y alignment and planarity errors within ±5 μm and ±10 μm, respectively. In addition, the average leakage current and contact resistance were approximately 1.04 nA and 0.054 ohm, respectively. The proposed highly productive microprobes can be applied to a MEMS probe card, to test a DRAM chip with fine pitch pads.

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Section: Mems/nano Fabrication Center Busan Techno-park Busan 609-7mentioning

confidence: 99%

Section: Mems/nano Fabrication Center Busan Techno-park Busan 609-7mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Highly Productive Process Technologies of Cantilever-type Microprobe Arrays for Wafer Level Chip Testing

Lim¹,

Ryu²,

Choi³

2013

Transactions on Electrical and Electronic Materials

View full text Add to dashboard Cite

show abstract

“…In addition, it is an important factor for determining the mass production quantity of semiconductor devices. Recently, the pad area and pitch of the devices have been decreasing as memory devices are highly integrated (Hauck et al 2010;Lin et al 2010;Mair and Armendariz 2011;Marinissen et al 2011). MEMS probe cards applying micromachining technologies and electrolytic plating techniques have the advantages of mass production and lower manufacturing costs (Wang et al 2008;Kim and Kim 2008;Marinissen et al 2011).…”

Section: Introductionmentioning

confidence: 96%

“…Probe cards are classified as horizontal (Kim et al 2007;Park et al 2002) and vertical (Hauck et al 2010;Lin et al 2010;Jim 2011;Lee and Sadrabadi 2011;Armendariz and Tong 2011) according to the probe arrangement method. A horizontal probe card is restricted to the device types with the pads of lead on center (LOC) or lead on top edge (LOTE), because the procedure of fabrication remains manual and the probe is long.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of a guide block for measuring a device with fine pitch area-arrayed solder bumps

Choi

Ryu

2012

Microsyst Technol

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This paper describes the design and fabrication of a guide block and micro probes, which were used for a vertical probe card to test a chip with area-arrayed solder bumps. The size of the fabricated guide block was 10 mm 9 6 mm. The guide block consisted of 172 holes to insert micro probes, 2 guide holes for exact alignment, and 4 holes for bolting between the guide block and the housing of a PCB. Pitch and size of the inserting holes were 80 lm, and 90 lm 9 30 lm, respectively. A silicon on insulator wafer was used as the substrate of the guide block to reduce micro probes insertion error. The micro probes were made of nickel-cobalt (Ni-Co) alloy using an electroplating method. The length and thickness of the micro probes were 910 and 20 lm, respectively. A vertical probe card assembled with the fabricated guide block and micro probes showed good x-y alignment and planarity errors within ±4 and ±3 lm, respectively. In addition, average leakage current and contact resistance were approximately 0.35 nA and 0.378 ohm, respectively. The proposed guide block and micro probes can be applied to a vertical probe card to test a chip with area-arrayed solder bumps.

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Fabrication of a micro-tip array mold using a micro-lens mask with proximity printing

2015

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New fabrication method for micro-pyramidal vertical probe array for probe cards

Cited by 5 publications

References 14 publications

Highly Productive Process Technologies of Cantilever-type Microprobe Arrays for Wafer Level Chip Testing

Highly Productive Process Technologies of Cantilever-type Microprobe Arrays for Wafer Level Chip Testing

Fabrication of a guide block for measuring a device with fine pitch area-arrayed solder bumps

Fabrication of a micro-tip array mold using a micro-lens mask with proximity printing

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