Transcript The McKinsey Mind Designing the Analysis

National Metrology Institute
TÜBİTAK UME
2016 November
1
TÜBİTAK UME: Mission
"To conduct research and development in the area of metrology towards the goal of
ensuring uniformity and reliability in measurements through the development,
improvement, maintenance and dissemination of internationally accepted reference
measurement standards and techniques for the purpose of contributing to the nation's
quality of life and economic competitiveness.“
with the multidiciplinery infrastructure.
2
TÜBİTAK UME ORGANIZATIONAL CHART
Physics Group
Mechanical Group
Chemical Group
3 Groups
26
Laboratories
12
Administrative
Units
3
HUMAN RESOURCES
260 staff members
Personnel Qualifications
Others, 33, 13%
Tech. Coll., 32, 12%
PhD, 62, 23%
B.Sc., 64, 24%
M.Sc., 75, 28%
Personnel Classification
Managers, 3, 1%
Impedance Lab*
Voltage Lab*
Temperature Lab*
Time & Frequency Lab*
RF&Microwave Lab*
Flow Mechanic Lab*
: 5 Researchers 1 Technician
: 7 Researchers (1 PhD), 2 Technicians
: 10 Researchers (5 PhDs)
: 9 Researcher (3 PhDs)
: 5 Researcher (3 PhDs), 2 Technicians
: 4 Resarcher (1 PhDs), 1 Technician)
Average experience at TÜBİTAK UME : 12 years
*Especially for CERN Project
Administrativ
e, 68, 26%
Researchers, 195,
73%
4
SERVICES & INFRASTRUCTURE
Capability to measure 105 different
measurement quantities based on
117 primary level reference
standards
4000 Calibrations & Tests
performed per year on average
• 26 laboratories in 10.443 m2
• 126 laboratory division
5
MEASUREMENT CAPABILITY
DIMENSION LABORATORY
Length (m)
Angel (rad)
TEMPERATURE LABORATORY
HIGH VOLTAGE LABORATORY
AC High Voltage Ratio (Reel)
AC High Voltage Ratio (Imajiner) (rad)
High Voltage Impedance (Reel) (Ω)
High Voltage Impedance (Imajiner) (rad)
Temperature (K)
Humidty (% rh)
CHEMICAL LABORATORIES
Element Concentration (ng/g)
Isotope Measurements 13C/12C, 2H/1H, 18O/16O ve 15N
/14N (‰)
Organic Analyte Content (ng/g)
Gas Composition (mol/mol)
GMO (copy number %)
mRNA (copy number ratio)
Protein Concentration (μg/L)
Bacterial Count (bacteria count/mL)
Primary Level pH measurement
Conductivity Measurement (μs/cm)
FORCE LABORATORY
Force (N)
Torque (Nm)
Hardness
ACOUSTIC LABORATORY
Sound Pressure Level (Pa)
Linear Accelartiy (m/s²)
Ultrasound Power (W)
Microphone Gain (dB)
IMPEDANCE LABORATORY
Resistance (Ω)
Capacitance (F)
Inductance (H)
Conductivity (S)
AC Voltage Ratio
MASS LABORATORY
Mass (kg)
Volume (m3)
Density (kg/m3)
Viscocity (mm2/s2)
OPTICS LABORATORY
ELECTROMAGNETIC
LABORATORY
TIME & FREQUENCY &
WAVELENGHT LABORATORY
Electrical Field Strenght (V/m)
Magnetic Field Strenght (A/m)
Time (s)
Length (m)
Frequency (Hz)
FLOW MECHANIC LABORATORY
Water flow (kg/h)
Flow (m3/h)
Velocity (m/s)
Pressured Air Flow (m3/h)
Flow Directivy Timing Error (m3)
Laser Beam Aparture (mm)
RF & MICROWAVE LABORATORY
Calibration Factor
Ewffective Efficiency
Reflection Coefficient
RF Impedance (Ω)
Transmission Coefficient
Attanuation (dB)
RF Power (W)
SWR
VOLTAGE LABORATORY
Active Power (W)
Reactive Power (Var)
Apparent Güç (VA)
Current (A)
Voltage (V)
Active Energy (Wh)
Reavtive Energy (Varh)
AC Current Ratio (Reel)
AC Current Ratio (Imajiner) (rad)
MAGNETIC LABORATORY
Magnetic Field (T)
Magnetic Flux (Wb)
Magnetic Moment (Am2)
Fiber Optic Power (W)
Fiber Optic Attenuator (dB)
OTDR (Distance and Attenuation Axes) (m dB)
UVA Irradiance (W/m2)
Spectral Irradiance (W/(m2nm) )
Laser Energy (J)
Laser Power (W)
Spectral Responsivity (A/W)
Luminous Flux (lm)
Luminous Intensity (cd)
Color Coordinates of Light Sources (CIE-xy, CIE-’
u'v')
Color Temperature of Light Sources (K)
Color Plate (d:0° d:8°,0°:45°) (CIEXYZ, CIExy,
CIELAB, ΔE)
Colorimeter ( 0°:45° d:8°) (ΔE)
Luminance (cd/m2)
Illuminance (lx)
Luminous Responsivity (nA/lx )
Luminous Exposure (lx∙s)
Spectral Regular Reflectance
Gloss (GU)
Spectral Diffuse Reflectance
Spectral Regular Transmittance
Total Transmittance
Diffuse Transmittance
PRESSURE LABORATORY
Pressure (Pa)
6
POSSIBILITIES FOR SUPPORT
 Following the design and production stages for the PCBs (VPE, LVR, FE), UME can offer
its skills and experience in sensitive and precise characterization/testing of those PCBs,
according to the test and control criterias defined by the design and application
engineers.
 UME can produce precision femto-Farad capacitors which are utilized in PCB
realization. Also, preciese measurement of integrated passive components (capacitors,
resistors, inductors) to be used on the PCBs can be performed by UME.
 UME can also perform current measurement down to femto-Amper level.
 Precise thermal characterization between -60 °C and +100 °C.
 Possible support for SAR ADC can be assessed upon receiving more details.
 Time domain, waveform analyzing and similar measurements can be performed
provided that proper connectors for high frequency measurements are available on the
boards.
 UME has experience in thermal simulations (ANSYS). Limits for Cooling limits can be
simulated for the thermal design of the system.
7
THANK YOU FOR YOUR ATTENTION !
This year again the target is higher!