Demonstrating Green Technology with Apples, Oranges, Lemons, and Limes

Abstract: Green initiatives bring home the issue of wasting standby power. Through reducing their usage of standby power, U.S. households can save an average of $100 per year.¹ Battery life in portable devices is important, but this application note shows that power-saving appliances in our homes are also critical to reduce environmental waste. Maxim is taking the lead in energy-efficient integrated circuits, and this document lists examples of Maxim parts used to reduce power in appliances, computers, and set-top boxes.

Jim Henson's creation, Kermit the Frog says, "It's not easy being green." We concur that saving energy is difficult, but very necessary. Smart circuit designers and progressive companies are meeting consumer's expectations in this aspect. And the smallest details are critical: power efficiency is one measured in microamperes (µAs), one-millionth of an ampere. For comparison, a 60W incandescent light bulb draws 0.5A. That is 500,000µA.
Why is it necessary to measure so precisely? Because it is the sum of all currents that count and like any budget, one must reduce every cost, no matter how small. Obviously in a battery-powered device, customers are sensitive about battery life. Not so obviously, plug-in appliances also have a cost associated with just being plugged in. When a device is "off", but displays a power indicator while waiting for a remote command, button, or timer, it is consuming standby power.
What is the cost of standby power? That 60W bulb can cost $14.65* a month if it runs 24/7. An appliance that draws 1W in standby power can cost $0.25 without doing any practical work. Walk around a typical home and count the appliances, TVs, radios, stereos, computers, garage-door openers, microwave ovens, washing machines, dryers, forced air heaters, and lawn sprinklers. Then add the battery chargers. You can easily have 20 devices on standby power, and most draw more than just 1W.
That is the good news. The bad news is that a cable TV box can draw 80W while in operation and 79W while in standby (costing $19.53 and $19.30, respectively). A satellite DVR box can consume 120W while in operation or standby, so just add $29.30 to your monthly subscription rate.
This is relevant not only as a monthly cost; as a citizen of Earth, we must be conscious of our environmental impact. As circuit designers, we can choose carefully, and thankfully low-energy parts are not necessarily more expensive. In fact, because newer parts are made with smaller geometry IC processes, they tend to be more efficient. Furthermore, Maxim circuit designers have long taken the lead in designing with energy efficiency in mind.
Table 1 illustrates ICs that can be used to reduce power costs in household appliances, computers, and set-top boxes. Today both designers and consumers have choices; we all can influence our Earth's future by the little things we do each day.
Table 1. Examples of Maxim's Power-Efficient ICs
Part Description Current Consumption
MAX5052 Current-mode PWM controller for isolated/nonisolated power supplies; ideal for universal input (rectified 85VAC to 265VAC) Operates on 1.4mA,
Starts with 45µA
MAX669 PWM power-supply controller at medium and heavy loads; Idle Mode™ pulses only as needed at light loads Quiescent 220µA
DS2786 Fuel gauge that accurately reports battery capacity from standard Li+ battery packs Operates on 50µA,
Standby sleep 1µA
DS80C320/DS80C323 Microcontrollers; 80C31, 80C32, and 8051 compatible; fast for power saving Stop, bandgap on 50µA,
Stop, bandgap off 1µA
DS80CH11 System energy manager; 8051-compatible core; key scanning; battery and power management; 2-wire serial I/O ports and 88 parallel pins; 8-channel 10-bit ADC; 4-channel, 8-bit PWM for LCD contrast and brightness IDLE mode = 10mA,
STOP mode = 1µA
DS2432 Security EEPROM; 64-bit secret; SHA-1 engine; unique identity 64-bit laser number EEPROM write 500µA,
Standby at 5µA
DS1340 Real-time clock and trickle charger with backup power switching Operates on 800µA
MAX894L/MAX895L High-side P-channel, MOSFET, load-isolation power switches Switches on at 16µA,
Switches off at 0.1µA
MAX7306/MAX7307 Serial-interfaced peripherals with 4 I/O ports; LED dim/blink together with key debounce Standby at 0.75µA
MAX4789, MAX4794 Switches to protect host devices; feature SDIO memory card Operates on 80µA,
Standby at 0.01µA
MAX2830 Wi-Fi® RF transceiver with PA and diversity Rx/Tx switch in a 7mm × 7mm package; designed for 802.11g/b applications Receive 65mA, transmit 289mA (POUT = 15dBm),
Shutdown 10µA
MAX9025–MAX9028 Comparators, some with 1.236V ±1% reference With reference 1µA,
Without reference 0.6µA
MAX8678 WLED charge pump with 1.1W audio amp; no output capacitors LED 140µA, quiescent standby 0.1µA
MAX9723 Stereo DirectDrive® headphone amp with BassMax and volume Standby 5µA
MAX9515 Video filter amp; autosenses signal and/or output coax load Standby 5µA
MAX9503 Video filter amp; DirectDrive removes output capacitors Standby 10nA
DS2714 NiMH battery charger, does not charge alkaline and lithium cells 500µA to 750µA
What does this have to do with apples, oranges, lemon, and limes? And how do these fruit demonstrate green technology? For a story to attract media attention, it needs a catchy headline. To demonstrate how little current is used by Maxim ICs, our parts can be powered by batteries made from apples, oranges, lemon, and limes. Figure 1 shows such a circuit.
Figure 1. Lemon batteries running a voltage reference board.
Figure 1. Lemon batteries running a voltage reference board.
This 3.6V battery is made of 4 lemon cells. Each cell produces 0.9V at approximately 100µA. The MAX6029 voltage reference produces a precise 2.5V while drawing a maximum of only 5.5µA. Figure 1 graphically demonstrates the tiny current draw of an IC.
The battery voltage is primarily determined by the chemistry between the copper and zinc. Many fruits and vegetables will operate as batteries. Apples, oranges, lemons, limes, grapefruit, and potatoes all produce voltages between 0.88V and 0.95V per cell. The color of the battery really makes no difference, but saying we are getting greener by using limes does make cute story.
It is estimated that 10% of household power consumption is lost to standby power.² The Energy Star® program, first created by the U.S. Environmental Protection Agency and the U.S. Department of Energy, estimates that there are 129 million households spending an average of $2200 each per year on electric power.³ Putting the numbers together, households spend approximately $28.3 billion per year on standby power in the United States. That is a staggering number, considering it just allows us to become coach potatoes! If we just would get up and turn off a switch, we could save that money.
All of a sudden, green sounds pretty good when we realize our household can save $100 per year. Now that power efficiency is personal, we can redouble our environmental saving behavior. The Maxim website has live parametric tables that allow us to interactively select parts. We can pay attention to power consumption as we select the appropriate part for our circuit. Though a microampere is a tiny amount, when multiplied by the huge number of people in the world, it does make a difference.
*The residential retail price of electricity varies by location and over time. These prices were accurate for residential customers in Northern California at the time of this application note's posting.


¹"What are energy vampires and what can I do about them?" ENERGY STAR, http://energystar.supportportal.com/link/portal/23002/23018/Article/21027/What-are-energy-vampires-and-what-can-I-do-about-them (accessed September 27, 2011).
²"Standby Power" in Wikipedia, The Free Encyclopedia, http://en.wikipedia.org/wiki/Standby_power (accessed September 27, 2011).
³"Where Does My Money Go?" ENERGY STAR, www.energystar.gov/index.cfm?c=products.pr_pie (accessed September 27, 2011).

DirectDrive is a registered trademark and registered service mark of Maxim Integrated Products, Inc.

Energy Star is a registered service mark of the Environmental Protection Agency.

Wi-Fi is a registered certification mark of Wi-Fi Alliance Corporation.

DS1340 I²C RTC,带有涓流充电器 免费样品  
DS2432 1Kb、保护型1-Wire EEPROM,带有SHA-1引擎 免费样品  
DS2714 4节散装NiMH电池充电器  
DS2786 基于OCV的独立式电量计 免费样品  
DS80C320 高速/低功耗微控制器 免费样品  
DS80C323 高速/低功耗微控制器 免费样品  
DS80CH11 系统能量管理器  
MAX2830 2.4GHz至2.5GHz 802.11g/b RF收发器,提供PA和Rx/Tx/模式开关 免费样品  
MAX4789 200mA/250mA/300mA限流开关 免费样品  
MAX4794 200mA/250mA/300mA限流开关 免费样品  
MAX5052 电流模式PWM控制器,带有误差放大器,适用于隔离型/非隔离型电源 免费样品  
MAX6029 超低功耗、高精度串联型电压基准 免费样品  
MAX669 1.8V至28V输入、PWM升压型控制器,µMAX封装 免费样品  
MAX7306 SMBus/I²C接口、4端口电平转换GPIO和LED驱动器 免费样品  
MAX7307 SMBus/I²C接口、4端口电平转换GPIO和LED驱动器  
MAX8678 白光LED电荷泵,带有1.1W音频放大器  
MAX894L 双路、限流型、高边P沟道开关,带有热关断 免费样品  
MAX895L 双路、限流型、高边P沟道开关,带有热关断 免费样品  
MAX9025 UCSP封装、1.8V、纳安级功耗、超摆幅比较器,带或不带基准 免费样品  
MAX9026 UCSP封装、1.8V、纳安级功耗、超摆幅比较器,带或不带基准 免费样品  
MAX9028 UCSP封装、1.8V、纳安级功耗、超摆幅比较器,带或不带基准 免费样品  
MAX9207 10位、总线LVDS串行器 免费样品  
MAX9503 DirectDrive®视频放大器,带有重建滤波器  
MAX9515 1mm x 1mm视频滤波放大器,提供自动关断和2V/V增益  
MAX9723 立体声DirectDrive®耳机放大器,具有BassMax、音量控制和I²C接口 免费样品  

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© Oct 10, 2011, Maxim Integrated Products, Inc.
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APP 4427: Oct 10, 2011
应用笔记4427, AN4427, AN 4427, APP4427, Appnote4427, Appnote 4427