Searched for: author:"de Jong, P.C."
(1 - 17 of 17)
document
de Jong, P.C. (author), Bennett, I.J. (author), Veldman, D. (author), Brockholz, B. (author), Energieonderzoek Centrum Nederland (author)
One-step module encapsulation and interconnection using conductive back sheet foils and conductive adhesives has advantages including i) fast module assembly, ii) limiting cell handling to a one time pick-and-place, and iii) low temperature (< 160 C) processing. Drawback of the integrated module production, however, is that interconnected...
conference paper 2011
document
Späth, M. (author), Dekker, N.J.J. (author), de Jong, P.C. (author), Veldman, D. (author), Eerenstein, W. (author), Bennett, I.J. (author), Harrison, S. (author), Ribeyron, P.J. (author), Munoz, D. (author), Energieonderzoek Centrum Nederland (author)
Silicon hetero-junction solar cell technology has the potential to obtain high efficiencies with thin wafers. This requires low stress and low-temperature interconnection of individual cells at module level. Also, hetero-junction cells are known to be susceptible to moisture ingress inside the module. Single cell modules have been manufactured...
conference paper 2011
document
Späth, M. (author), Dekker, N.J.J. (author), de Jong, P.C. (author), Eerenstein, W. (author), Bennett, I.J. (author), Veldman, D. (author), Harrison, S. (author), Ribeyron, P.J. (author), Munoz, D. (author), Energieonderzoek Centrum Nederland (author)
Silicon hetero-junction solar cell technology has the potential to combine high efficiencies with thin wafers. Cell efficiencies of 21 % can be achieved on 170 micron thick wafers. A significant reduction of the cost-performance ratio can be realized if these fragile cells are integrated reliably in solar modules. This requires low stress and...
conference paper 2011
document
de Jong, P.C. (author), Bennett, I.J. (author), Veldman, D. (author), Brockholz, B. (author), Energieonderzoek Centrum Nederland (author)
One-step module encapsulation and interconnection using conductive back sheet foils and conductive adhesives has advantages including i) fast module assembly, ii) limiting cell handling to a one time pick-and-place, and iii) low temperature (<160°C) processing. Drawback of the integrated module production, however, is that...
conference paper 2011
document
Energieonderzoek Centrum Nederland (author), Weeber, A.W. (author), de Jong, P.C. (author), Romijn, I.G. (author), Lamers, M.W.P.E. (author), Bennett, I.J. (author), Mewe, A.A. (author), Tjengdrawira, C. (author)
An integrated cell and module technology based on metal-wrap-through (MWT) cells has been developed and demonstrated. 243 cm2 large and 160 µm thin multicrystalline silicon MWT cells were made with a best cell efficiency of 17.9%. From 36 cells with an average efficiency of 17.8% a full-size module was made with an efficiency of 17.0% (aperture...
conference paper 2010
document
Energieonderzoek Centrum Nederland (author), de Jong, P.C. (author), Lamers, M.W.P.E. (author), Bennett, I.J. (author), Tjengdrawira, C. (author)
The overall demand in reducing the cost of electricity from solar energy has driven the cost of solar modules down. ECN developed an innovative module technology to enable this cost reduction requirement. The back-contact solar module concept caters specifically for high-efficiency solar cell types. It combines advanced module manufacturing...
conference paper 2010
document
Energieonderzoek Centrum Nederland (author), de Jong, P.C. (author), Tjengdrawira, C. (author), Guichoux, M.G. (author), Veldman, D. (author)
This paper discusses the impact of several combinations of encapsulants, conductive adhesives and back-sheet foils on ECNs back-contact modules performance and reliability. Damp-heat (85??C; 85% R.H) and thermal cycling (-40??C; +85??C) tests were performed up to twice as long as described in the IEC-61215 standard, i.e. 2000 hours of damp-heat...
conference paper 2010
document
Energieonderzoek Centrum Nederland (author), de Jong, P.C. (author), Eerenstein, W. (author), Bennett, I.J. (author), Visser, T.P. (author), Wijnen, P. (author), Veldman, D. (author), Brockholz, B. (author), Copetti, C.A. (author)
Large, 6x10 cells back contact modules have been manufactured at ECN using multi-crystalline Sunweb?? metallization wrap through (MWT) cells manufactured at Solland Solar, a conductive back sheet foil and conductive adhesive as interconnection material. The modules have been exposed to thermal cycling and damp heat tests according to IEC61215 ed...
conference paper 2010
document
Energieonderzoek Centrum Nederland (author), Weeber, A.W. (author), Kossen, E.J. (author), Koppes, M. (author), de Jong, P.C. (author), Romijn, I.G. (author), Lamers, M.W.P.E. (author), Bennett, I.J. (author), Mewe, A.A. (author), Bende, E.E. (author), Visser, T.P. (author), Tjengdrawira, C. (author), Brockholz, B. (author), Sauar, E. (author), Carnel, L. (author), Julsrud, S. (author), Naas, T. (author)
We obtained 17.9% cell efficiency on 160 micron thin cells sized 156 x 156 mm2 using ECNs Metal-Wrap-Through (MWT) concept. Several cell processing steps were optimized and this led to an increase of more than 2% absolute in cell efficiency compared with previously reported values [1]. With these high-efficiency cells a 36-cell module was...
conference paper 2010
document
Weeber, A.W. (author), Bende, E.E. (author), Kossen, E.J. (author), Koppes, M. (author), de Jong, P.C. (author), Romijn, I.G. (author), Lamers, M.W.P.E. (author), Bennett, I.J. (author), Mewe, A.A. (author), Visser, T.P. (author), Tjengdrawira, C. (author), Brockholz, B. (author), Sauar, E. (author), Carnel, L. (author), Julsrud, S. (author), Naas, T. (author)
We obtained 17.9% cell efficiency on thin and large mc-Si REC wafers using ECNs metal-wrap-through (MWT) concept. Optimization of several cell processing steps led to an increase of more than 2% absolute in cell efficiency. With these cells 36-cell modules were manufactured at 100% yield in our industry scale module pilot line. The highest...
article 2010
document
Energieonderzoek Centrum Nederland (author), Weeber, A.W. (author), de Jong, P.C. (author), Lamers, M.W.P.E. (author), Bennett, I.J. (author), Mewe, A.A. (author), Tjengdrawira, C. (author)
We obtained an independently confirmed module aperture area efficiency of 16.4% using 36 large and thin mc-Si metal-wrap-through (MWT) cells. This is an absolute increase of almost 1% compared to the previous world record. The module was made using a conductive rear-side foil with conductive adhesive for the interconnection. The module was...
conference paper 2009
document
Energieonderzoek Centrum Nederland (author), Späth, M. (author), de Jong, P.C. (author), Bennett, I.J. (author), Bakker, J. (author), Visser, T.P. (author)
There is a great need for cost-effective high-throughput equipment to assemble thin and high-efficiency solar cells into modules. Presently, a module assembly line facilitating back-contact solar cells is build by TTA and ECN. This fully operational pilotline consisting of dedicated equipment to process back contact cell modules focuses on the...
conference paper 2008
document
Energieonderzoek Centrum Nederland (author), Späth, M. (author), de Jong, P.C. (author), Bennett, I.J. (author), Bakker, J. (author), Visser, T.P. (author), Verschoor, A.J. (author)
There is a great need for cost-effective high-throughput equipment to assemble thin and high-efficiency solar cells into modules. Single-step assembly using back-contact cells (monolithic module assembly) provides substantial advantages in terms of performance and costs. Progress towards development of a commercial module and assembly process...
conference paper 2008
document
Energieonderzoek Centrum Nederland (author), Späth, M. (author), de Jong, P.C. (author), Bakker, J. (author), Visser, T.P. (author)
There is a great need for cost-effective high-throughput equipment to assemble thin and high-efficiency solar cells into modules. Presently, a module assembly line facilitating back-contact solar cells is build by TTA and ECN. Comprising a throughput rate of 1 cell per second, which is 6-8 times faster than any existing technology, a module...
conference paper 2007
document
Energieonderzoek Centrum Nederland (author), de Jong, P.C. (author), Kloos, M.J.H. (author), Bennett, I.J. (author), Stam, C.N.J. (author), Schuermans, J. (author), Gomez, R.J. (author), Sanchez-Friera, P. (author), Schmidt, H. (author), Henckens, A. (author)
n.v.t.
conference paper 2007
document
Energieonderzoek Centrum Nederland (author), Späth, M. (author), Broek, K.M. (author), van den Nieuwenhof, M.A.C.J. (author), de Jong, P.C. (author), Kloos, M.J.H. (author), Meuwissen, M.H.H. (author), Steijvers, H.L.A.H. (author)
n.v.t.
conference paper 2007
document
de Jong, P.C. (author), Meijer, G.C.M. (author), van Roermund, A.H.M. (author), TNO Fysisch en Elektronisch Laboratorium (author)
A high-temperature instrumentation amplifier that uses dynamic feedback is presented. It realizes dynamic feedback by means of a rotating chain of resistors to compensate for resistor mismatches. An 11x dynamic-feedback instrumentation amplifier has been integrated in a standard junction-isolated 1.6-μm CMOS process and realizes an average gain...
article 1998
Searched for: author:"de Jong, P.C."
(1 - 17 of 17)