### Table 2.1 Buck+Boost efficiency at Maximum output power operation P=2 kw, Vo=300 V (high line)

### Table 2.2 Buck+Boost efficiency at Maximum output power operation P=0.85 kw, Vo=100 V (Low line)

### Table I shows power converter efficiency vs. delay time for two different supply voltages: the maximum input voltage of 15 volts and a nominal voltage of 6 volts. The load power is 0.37 watts and the output voltage is 3.3 volts. Ipcali is 1.4 amps. A delay time of 75 - 100 ns is optimum.

1995

Cited by 6

### Table I shows an example of boiler efficiency (a continuous variable) discretized into ten levels (intervals), where LT_86 denotes lower than 86%, 86_86.25 means the efficiency is in the interval (86%, 86.25%), and HT_88 denotes efficiency higher than 88%. Note that categorization function can also be easily generalized to transform multiple continuous variables into cat- egories. An increase of efficiency by 1% of a typical power plant generator (200 MW) translates into savings of approximately $500 000 per year in fuel cost [17]. Here, only one output is optimized and

### Table 4. Power efficiency of a few 3.3V DC-DC boost converters.

"... In PAGE 7: ...2), we would review our choice of output regulator. Table4 shows the efficiency of a few suitable components at relevant out- put currents. 5 Evaluating the Design To evaluate our model and design, we deployed two test... ..."

### Table 2. Solar Array Power Calculations in SINDA Logic HEADER ARRAY DATA, ROVER C TEMPERATURE DEPENDENCE OF SOLAR ARRAY POWER GENERATION C IN DEGREES C AND % (FRACTION) EFFICIENCY 200 = 28., 0.18, 120., 0.143

in SUMMARY

"... In PAGE 13: ... Table2 . Solar Array Power Calculations (con apos;t) HEADER OUTPUT CALLS,ROVER C C CALCULATE POWER GENERATION IN SOLAR ARRAYS C Qgen = Qin * 80% area / alpha Q in already in W C Qreal = Qgen * % EFFICIENCY C XK301 = Q301 * 0.... ..."

### Table 2. Solar Array Power Calculations (con apos;t) HEADER OUTPUT CALLS,ROVER C

in SUMMARY

"... In PAGE 12: ...hown in Figure 13. The code used to perform the calculations is shown in Table 2. Time (days) Instantaeous Solar Array Power (W) 50 60 70 80 90 100 110 120 130 02468101214 Includes: - effect of solar cell temperature on efficiency - solar fluxes over lunar orbit, with rover orientation, latitude and shading Figure 13. Solar Array Power Generation over Lunar Day for 75 degree Latitude Table2 . Solar Array Power Calculations in SINDA Logic HEADER ARRAY DATA, ROVER C TEMPERATURE DEPENDENCE OF SOLAR ARRAY POWER GENERATION C IN DEGREES C AND % (FRACTION) EFFICIENCY 200 = 28.... ..."

### Table 1 - Power output by wavelength

"... In PAGE 59: ...The distribution of power given in Table1 is theoretical and will change by a few percent based on the gas mix and other factors. The most important line for our experiment is the most powerful, the line which is used to excite the fluorescent beads used in our... ..."

### Table 1 Rough estimation of powers and efficiencies for lasers.

"... In PAGE 5: ... About 500 millions diode stacks are needed. The total electric input power for both of compression and heating lasers is roughly estimated at 156 MW including a cooler system in Table1 . The overall electrical-optical efficiency is as high as 12%.... ..."