Precious material billing

Details of the methods used for precious material billing:

EVA 760
LAB 600 H
SPIDER 600
DP 650

EVA 760 : Au / Ag / Pt / Pd

E-Beam evaporation

Unit for billing : nm
Deposition parameters for billing :
- t_d = thickness measured by the Crystal
- t_f = fixed thickness for pre-evaporation

Materials / Categories	450 mm	350 mm	250 mm
Au	33 nm	55 nm	110 nm
Ag	33 nm	55 nm	111 nm
Pt	22 nm	37 nm	72 nm

Billed quantity = t_d + t_f
Unit prices are fixed each month and are available with the user interface (Rates / Process overcharges)

LAB 600 H : Au / Ag / Pt / Pd

E-Beam evaporation

Unit for billing : nm
Deposition parameters for billing :
- t_d = thickness measured by the Crystal
- t_f = fixed thickness for pre-evaporation

Materials / Categories	HRN	LRN
Au	3 nm	8 nm
Ag	40 nm	100 nm
Pt	13 nm	33 nm
Pd	23 nm	57 nm

Billed quantity = t_d + t_f
Unit prices are fixed each month and are available with the user interface (Rates / Process overcharges)

SPIDER 600 : Pt / Ru

Sputtering

Unit for billing :W.h
Deposition parameters for billing :
- E₁ = initial consumption [W.h]
- E₂ = final consumption [W.h]
Billed quantity = E₂ – E₁
Unit prices are fixed each month and are available with the user interface (Rates / Process overcharges)

Standard recipe for Pt :
- Target cleaning : 1mn, 1000W => E ~ 17 W.h
- Consumption at 1000W for a deposition rate of about 260 nm/mn => E ~ 0.064 W.h/nm (per wafer)

Standard recipe for Ru :
- Target cleaning : 1mn, 1000W => E ~ 17 W.h
- Consumption at 1000W for a deposition rate of about 230 nm/mn => E ~ 0.072 W.h/nm (per wafer)

DP 650 : Au / Ag / Pt / Pd

Sputtering

Unit for billing :W.h
Deposition parameters for billing :
- E₁ = initial consumption [W.h]
- E₂ = final consumption [W.h]
Billed quantity = E₂ – E₁
Unit prices are fixed each month and are available with the user interface (Rates / Process overcharges)

Standard recipes for Au :
- Target cleaning : 20s, 200W => E ~ 1 W.h
- Z=30mm. Consumption at 200W for a deposition rate of about 115 nm/mn => E ~ 0.029 W.h/nm (per wafer)
- Z=80mm. Consumption at 50W for a deposition rate of about 12 nm/mn => E ~ 0.068 W.h/nm (per wafer)
- Z=80mm. Consumption at 250W for a deposition rate of about 74 nm/mn => E ~ 0.056 W.h/nm (per wafer)

Standard recipes for Ag :
- Target cleaning : 30s, 200W => E ~ 1.7 W.h
- Z=30mm. Consumption at 200W for a deposition rate of about 171 nm/mn => E ~ 0.019 W.h/nm (per wafer)
- Z=80mm. Consumption at 250W for a deposition rate of about 104 nm/mn => E ~ 0.040 W.h/nm (per wafer)

Standard recipes for Pt :
- Target cleaning : 20s, 200W => E ~ 1 W.h
- Z=30mm. Consumption at 200W for a deposition rate of about 65 nm/mn => E ~ 0.051 W.h/nm (per wafer)
- Z=80mm. Consumption at 250W for a deposition rate of about 40 nm/mn => E ~ 0.104 W.h/nm (per wafer)

Standard recipes for Pd :
- Target cleaning : 20s, 200W => E ~ 1 W.h
- Z=30mm. Consumption at 200W for a deposition rate of about 100 nm/mn => E ~ 0.033 W.h/nm (per wafer)
- Z=80mm. Consumption at 250W for a deposition rate of about 59 nm/mn => E ~ 0.070 W.h/nm (per wafer)

Standard recipes for Ir :
- Target cleaning : 60s, 250W => E ~ 4 W.h
- Z=30mm. Consumption at 250W for a deposition rate of about 48 nm/mn => E ~ 0.087 W.h/nm (per wafer)
- Z=80mm. Consumption at 250W for a deposition rate of about 24 nm/mn => E ~ 0.174 W.h/nm (per wafer)

Standard recipes for IrOx :
- Target cleaning + contionning (reactive sputtering) : 3 min 10s, 200W => E ~ 11 W.h
- Z=80mm. Consumption at 200W for a deposition rate of about 39 nm/mn => E ~ 0.085 W.h/nm (per wafer)