2011년 6월 30일 목요일

제품인증

● 전기용품안전인증
전기용품으로 인한 화재, 감전 등의 위험 및 장해의 발생으로 인한 안전사고를 방지하기 위하여 안전인증기관으로부터 인증 받은 제품만 판매를 허용하는 강제 인증제도

● 전자파적합인증
전파환경 및 방송통신망 등에 위해를 줄 우려가 있는 기자재와 중대한 전자파장해를 주거나 전자파로부터 정상적인 동작을 방해받을 정도의 영향을 받는 기자재를 제조 또는 판매하거나 수입하는 경우의 적합인증
                                                                                                                                                                                         
● 무선기기형식등록
국내에서 사용되어지는 무선설비의 기기를 제작 또는 수입하고자 하는 사람들에게 형식등록 대상기기, 방법 및 절차 등 각각 필요한 사항을 정보통신부령으로 정하여 무선기기에 대해 서류검사와 성능시험을 하여 국내전파자원보호에 적합여부를 확인하여 인증서를 발급해 주는 제도

누리텔레콤

http://www.nuritelecom.co.kr/

누리텔레콤은 통신소프트웨어 기반 응용솔루션 분야, 시스템 관리 솔루션 분야, 플랫폼 기반의 에너지관리 소프트웨어, 지능형 검침 인프라 시스템(AMI: Advanced Metering Infrastructure), 에너지관리 시스템, 인터넷 전자고지 서비스, 에너지 절감 포탈 서비스 등 저탄소 녹색성장을 구현할 수 있는 다양한 스마트그리드 솔루션을 제공하고 있습니다.

그린데일리

http://www.greendaily.co.kr/

2011년 6월 29일 수요일

2011년도 국내인증마크 획득지원사업 - 대전중소기업종합지원센터

http://www.tssc.or.kr/news/centerNews/business.jsp?gid=business&category=0&displayMode=view&seq=52
2011년도 국내인증마크 획득지원사업 지원 공고
대전광역시와 대전중소기업지원센터에서는 대전 소재 중소벤처 기업을 대상으로  『2011년도 국내인증마크 획득지원 사업』을 아래와 같이 지원하고자 하오니 안내사항에 따라 신청하여 주시기 바랍니다.
1. 지원대상 인증·마크
    - 제품인증(3종) : KS마크, KC마크, GS인증(S/W)
    - 신기술 인증(2종) : NEP(신제품인증), NET(신기술인증)
    - 조달청 등록지원(3종) : 조달우수제품, 성능인증, 이노비즈인증
    - 친환경 인증(4종) : 환경마크, 우수재활용인증(GR), LOHAS 인증,
                        녹색경영인증(GMS인증)
2. 지원대상 : 중소기업기본법에 의한 대전광역시 소재 중소기업으로서 2011년도에
             지원대상(공고일 이후) 인증·마크를 획득한 기업 ※ 직전년도 매출액 100억이상 제외
3. 지원규모 : 11업체
4. 지원내용   
  ○ 인증(마크) 획득 총 소요경비(인증비용, 시험비용, 컨설팅 비용)의 70%,
      최대 2,000천원까지 지원   ※ 지원자금 소진시까지 선착순 지원
5. 과제신청
  ○ 신청기간 : 2011.2.23~자금 소진시까지   ○ 신청방법 : 인증획득 후 획득지원금 신청 / 신청서 우편접수 불가(직접방문)
  ○ 제출서류 :
      ▷ 보조금 지원신청서 1부
      ▷ 인증서(확인서) 사본 1부
      ▷ 소요비용 증빙서류 : 세금계산서(영수), 송금내역서, 컨설팅비용 산출내역,
                             시험성적서 각1부(원본대조필) 등
      ▷ 기타 : 사업자등록증(사본), 통장사본(기업명의), 전년도 제무재표 각1부
6. 기타사항
  ○ 국가 및 지자체 지원사업과 중복 지원되는 경우 지원대상에서 제외
  ○ 문의처 : 대전중소기업종합지원센터 기업지원부 길기순 / ☎042-867-4000

Google, GE & Others Prototype Wireless Mote to Connect Any Device to Smart Grid

http://www.readwriteweb.com/archives/usnap_remote_device_data_standard.php

Imagine a small chip you could plug into any device in your home that would enable it to communicate with your web-based electricity and device management dashboard. Or it could be trained to simply turn the device off at times of day when electricity was particularly expensive.

Such is the vision of the USNAP consortium, a group of companies including GEand Google that seeks to create a standard for the meter-to-device in-home monitoring stage of the promised smart grid. ("Enabling the device ecosystem for the smart grid," is the group's tagline.) USNAP released this week a proposed 2.0 standard spec for small modules that can be connected to devices to render them individually instrumented - measurable and manipulable as discrete sources of data. Where there is plug-and-play data, there is a platform for online innovation.

"This is the equivalent of USB for consumer products," Barry Haaser of the USNAP Alliance says. USNAP is an acronym for Utility Smart Network Access Port and the consortium has been developing its technical specifications for three years. It has created the design for a little module, 55 mm long, with 10 pins and weighing no more than 40 grams - about as heavy as 17 pennies. The module is programmed to send and receive messages to and from the smart meter, in a standard format, using a wide variety of messaging technologies, including protocols like WiFi, and lesser-known systems with names like ZigBee, Z-Wave, RDS, and FlexNetWiFi.

Any companies that apply, are accepted to and pay the USNAP Alliance a $5,000 annual fee may manufacture USNAP modules.


USNAP focuses on the cost benefits of its technology, but interoperable device-level data availability could hold long-term promise for the development of innovative services as well, and thus a larger economy. That's the hope behind the smart grid in general. The easiest way to explain its value is as a system for automated energy demand reduction. That's very big, but the potential is much larger. Self-awareness of our mechanical world, with a web interface, might be one way to explain it.

Electrical consumption data, down to the device level, is today largely abandoned to what is sometimes called our data exhaust. Making that data manageable opens up a world of possibilities for new services dedicated to analyzing it, servicing patterns and deriving unanticipated forms of value from individual and aggregate information. In part on top of USNAP, for example, a whole other technical standard called Open Automated Demand Response (OpenADR) is being built, a technology that enables buildings to automatically respond to Internet-based signals that provide electricity grid prices and reliability messages.
Just as we've seen in the world of human-published social networking data, however, ownership of this resource is something that's been too lightly considered for several years. If your refrigerator's data is suddenly captured, leveraged and recognized as a thing of value to an emerging supply chain of services - what are your rights concerning control and exploitation of that data? It is your refrigerator, after all!
This is truly the read/write web beyond the individual gazing into the browser. The Internet of Things is expected to be a big part of the future, and technical standards that facilitate interoperable communication between devices is very important within that context.

USNAP has opened its "Serial Interface Specification Version 2.0 Public Review Document" for 30 days of public consideration and comment.

openADR @ QualityLogic

http://www.qualitylogic.com/Contents/Smart-Grid/Technology/OpenADR.aspx

OpenADR research is conducted by the Demand Response Research Center (DRRC), which is managed by Lawrence Berkeley National Laboratory. The DRRC defines OpenADR as “Fully-Automated Demand Response using open standard, platform-independent, and transparent end-to-end technologies and/or software systems.” Demand response manages energy use dynamically through cooperation between power customers, electric utilities, and electric system operators.

OpenADR allows building managers to use automated demand response to save peak power use and reduce stress on the electric grid during times of high energy demand. With OpenADR, electric utilities can offer electricity pricing programs based on automated demand response.

OpenADR specifies a low-cost communications infrastructure that improves the reliability, repeatability, robustness, and cost-effectiveness of demand response (DR) in commercial buildings. The research was funded by the California Energy Commission's (CEC) Public Interest Energy Research Program (PIER).
Types of Demand Response addressed by OpenADR include:
  • Load response to enhance reliability
  • Direct load control
  • Complete load interruptions
  • Price response by end-use customers
  • Various pricing schemes including: dynamic pricing, real-time pricing (RTP), coincident peak pricing (CPP), and time-of-use rates (TOU)
  • Demand bidding or buyback programs

BuildingIQ’s Smarter Buildings, Now With Demand Response

http://gigaom.com/cleantech/buildingiqs-smarter-buildings-now-with-demand-response/

Updated: Automated building controls, meet demand response. Australian startup BuildingIQ announced this week that its automated system turned down power use at a Perth, Australia city building in response to a demand response system now being piloted by utility Western Power. BuildingIQ CEO Mike Zimmerman says it’s the first time a building control optimization system has automatically met a utility’s demand to turn down power to manage peak load. But if Zimmerman has his way, the system will soon be tested out in the U.S. as well.
Automating demand response in commercial buildings could be a massive business.  Most of the 40 gigawatts or so of DR capacity in the U.S. today is managed via emails, phone calls, pager messages and other relatively low-tech methods. Letting a demand response message turn down power directly in buildings is more common in industrial settings, where factory managers tend to have sophisticated control systems already in place.
Commercial buildings are a tougher sell, Zimmerman, mainly because they have to keep tenant operations — and comfort — in strict focus. Big property management firms have strict service agreements with their tenants, and they don’t approve of turning off lights or HVAC systems just to save on energy bills.
BuildingIQ’s “predictive energy optimization” system, based on technology from Australian national research lab CSIRO, manages these factors by crunching weather reports, building control system data, energy pricing information, and online surveys of tenant comfort, among other sources of information. That allows the system to fine-tune building control systems with energy prices in mind, Zimmerman explained to us. One example is “pre-cooling,” or ramping up AC units in advance of a spike in commercial energy rates, then letting them idle through the expensive peak price window, usually a few hours in the late afternoon.
BuildingIQ has delivered 20 to 30 percent reductions in energy use in pilots in Australia through such measures, which can go toward reducing energy bills, making carbon emission reduction targets, or participating in demand response events — the latter tempting because they offer payment to the building owner for power turned down on top of whatever they save in energy bills. The system integrates with building management systems (BMS) from vendors like Honeywell, Johnson Controls and Siemens that together hold some 60 percent of the market, Zimmerman said. He intends to announce some go-to-market partnerships with unnamed BMS vendors in the near future, he added.
It will be interesting to see how BuildingIQ’s software-based optimization system mixes and matches with the rapidly automating world of demand response. That world includes EnerNoc’s PowerTalk platform, Comverge’s Apollo software system and Berkeley Labs’ OpenADR system now being tested in Southern California by Honeywell and its recent acquisition, OpenADR server maker Akuacom.
There are also more smart grid-focused projects underway that could also automate commercial buildings for energy efficiency and demand response. Cisco’s Building Mediator product ties multiple buildings into a single, IP-enabled interface for energy controls, and IBM is working on similar building-IT integration with Johnson Controls.
BuildingIQ’s technology acts as a software retrofit of existing building automation systems and each building needs only one server that links to the company’s cloud-based optimization engine. That makes its software similar to products from startups like “continuous commissioning” software maker Scientific Conservation or Cimetrics, which crunches building data to fine-tune temperatures. The difference is that Scientific Conservation and Cimetrics provide data without direct controlling building management systems like BuildingIQ does, Zimmerman said. With so many overlapping venues to link smart grid and building control systems, it will be fascinating to watch how they’re all put together.
To read all of my daily curated news links, my weekly column and my research reports check out the Green IT page on GigaOM Pro (subscription required).
For more research on smart grid opportunities check out GigaOM Pro (subscription required):
Demand Response Gets a Boost from Proposed FERC Ruling
Report: An Open Source Smart Grid Primer

2011년 6월 27일 월요일

2011년 6월 24일 금요일

차세대 자동차용 계기판 - freescale

http://www.ebuzz.co.kr/content/buzz_view.html?uid=88955
프리스케일은 자사의 프로세서를 이용한 차세대 자동차용 계기판을 선보였다. 이들 계기판은 순수하게 LCD에 표현되는 그래픽으로만 구성되는 것이 특징.

 

스마트홈 게이트웨이 - freescale

스마트 TV와 스마트 냉장고를 외부 통신망과 연결해 사용하려면 이들을 하나로 묶어 줄 수 있는 ‘게이트웨이’가 필수적이다. 프리스케일은 미국 샌안토니오에서 열리는 ‘프리스케일 테크놀로지 포럼 2011’에서 스마트홈 통신망에 대한 해답을 제시했다.

더 보기 http://www.ebuzz.co.kr/content/buzz_view.html?ps_ccid=88956#ixzz1QBGOC7cR

대기전력차단 콘센트 특허 추세

전기콘센트 분야에도 ‘녹색바람 불어’
대기전력 저감형 콘센트 특허출원 급증
전기신문
http://www.elec-inews.co.kr/news/articleView.html?idxno=2315

대기전력차단 전문기업 모토모테크

http://www.motomo1.com/
대기전력차단 전문기업 모토모테크(http://www.motomo1.com/)는 대한민국 특허청에 2010년 12월2일 전자제품의 대기전력 차단장치 특허제 10-0999344호로 등록되었다.

Open Automated Demand Response Communication Standards (OpenADR or Open Auto-DR) Development

http://openadr.lbl.gov/

The OpenADR research has been carried out by LBNL Demand Response Research Center (DRRC) which is managed by Lawrence Berkeley National Laboratory. Over six years of research, development, and demonstration have led to this standard development process. The initial goal of the OpenADR research was to explore the feasibility of developing a low cost communications infrastructure to improve the reliability, repeatability, robustness, and cost-effectiveness of demand response (DR) in commercial buildings. One key research question was: Could today's technology be used to automate the response of commercial and industrial buildings to standardized electricity price and reliability signals? The research was funded by the California Energy Commission's (CEC) Public Interest Energy Research Program (PIER).

대기전력 자동차단 콘센트

대기전력 자동차단 콘센트

벽체매립형 -  파나소닉전공신동아(주)

외장형, 멀티탭

2011년 6월 23일 목요일

국가지식포탈

국가지식포탈
https://www.knowledge.go.kr/

국가지식포털은 각 기관별로 전산화된 국가 지식 자료를 통합검색하여 제공함으로써 모든 기관과 국민이 국가지식 정보자원을 마음껏 활용할 수 있도록 합니다.

2011년 6월 16일 목요일

ECDV 인증 대상

http://www.cts-korea.co.kr/

- 전기용품안전인증
- 전자파적합등록
- 무선기기형식등록

인증컨설팅 - 씨티에스코리아

http://www.cts-korea.co.kr/
씨티에스코리아
- 국내인증
- 해외인증
- 신뢰성시험

세금혁명 - 선대인

http://www.pressian.com/article/article.asp?article_num=20110606150241&section=04

조세정의와 집행, 민주주의의 근본핵심문제
김상수: '대한민국 세금의 비밀을 파헤친 세금혁명', 그리고 'TAX 프리라이더', 책 잘 읽었습니다. 우리사회에서 가장 현실적인 문제인 세금문제를 다루고 있다는 사실이 반가웠습니다. 나라 살림살이의 근거를 질문하고 있는 내용인데, 세금문제를 바로 잡는 것이야말로 이 나라 민주주의를 제대로 실현할 수 있습니다. 2권의 책은 민주주의 근본 핵심문제로 읽혀왔습니다.
선대인: 세금은 국민의 돈입니다. 관료와 재벌이 함부로 주무를 수 있는 돈이 절대 아닙니다. 그러나 세금징수나 집행현실은 그렇지 못합니다. 이 땅의 특권층이 누리는 세금과 정부 재정 지원의 특혜는 상상을 초월합니다. 반면 그들이 누리는 특혜 때문에 일반 시민들은 얼마나 불공평하게 세 부담을 지면서 시민으로의 권리는 누리지 못하는가를 시민들 스스로 알아야하고 또 분노할 수 있어야만 합니다. 그런 동기로 쓴 책들입니다.