Add Scanning Capabilites to Your Huntron Tracker Model 30 System
Adding a Huntron® Scanner to your Tracker Model 30 system lets you access components using standard DIP clips and cables, custom cables to PCB connectors or interface to a bed-of-nails.
You can compare one component with another in real-time (64 pins max.) or use your PC to automate testing and scan up to 128 pins.
Huntron Scanners can be used with a Huntron Access Prober to provide Common line connections while the Prober is probing a PCB. This method gives you up to 128 selectable Commons to use. For example, you can connect the Scanner to a connector on a PCB mounted in the Prober using a common ribbon style cable. While the Prober is probing, any one of the lines on the connected ribbon cable can be selected as the Common reference. This would provide you true point-to-point testing capabilities.
Note: The ProTrack Scanner will be replaced by the Scanner II and/or the Scanner 31S effective 1/1/2008. This applies to commercial sales only.
Scanner II and Scaner 31S users may want to consider these Optional Accessories to enhance their test capabilities.
Highlights:
· The Scanner II and Scanner 31S accessories add scanning capability to the Tracker Model 30
· All Scanners have a minimum 64 pin capability
· The Scanner II can scan up to 128 pins when the A and B channels are combined
· The Scanner 31S use standard IDC style connectors
· The Scanner II uses the common SCSI-2 (68 pin) style connectors
· Up to 8 Scanner IIs can be “daisy-chained” to increase the available number of test pins
Selecting Accessories for your Scanner II
The Scanner II accessories for interfacing to your printed circuit board come "ala carte". This means that you select the accessories you want included with your Scanner. Choose from SMT or through-hole style DIP clip and cable kits (Scanner Adapter required with Scanner II) or a mutli-pin breakout cable. Details on these accessories are provided on this page.
netten..
25 Ocak 2009 Pazar
Recover, Repair, Recycle
Benefit from Huntron's 30 years of providing quality Diagnostic Tools for PCA Recovery
With today's val
id concerns for protection of our environment, the recovery, repair and recycling of printed circuit assemblies (PCAs) is a positive move towards sustainable environmental-friendly practices.
Huntron has been helping businesses troubleshoot and repair printed circuit assemblies for over 30 years. Repairing rather than discarding failed PCAs keeps the potentially harmful chemical components such as lead out of our world's landfills and disposal sites.
Below is a list of Huntron products to help you recover, repair and recycle PCAs:
• Huntron Tracker 2800
• Huntron Tracker Model 30
• Huntron TrackerPXI
• NFSA RF Prober
New Version of Huntron Workstation Available!
A new version of Huntron Workstation is now available for download. Go to the Workstation Support web page to download version 4.1.3273! Update December 22, 2008.
New Automated Near Field Signature Analysis
Combining the Huntron Access Robotic Probing Station, Huntron Workstation Software and the new Test Evolution (TEV) Non-Contact RF Near Field Probe with local synthetic measurement technology sets the standard for Near Field Signature Analysis (NFSA).
Placing the sensor, receiver and signal processing in one compact RF Probe assembly allows the sensing of EM fields emanating from RF circuitry. A specific position in a Near Field is defined as a Virtual Test Point™ (VTP) where a NFSA measurement is made. Identical circuits emanate nearly identical fields at the VTP. The combination of Huntron Prober and TEV RF Probe allows accurate positioning and measurement of VTPs. This provides the repeatability to measure VTP's from 200MHZ to 3GHZ on RF assemblies.
When used for test, an engineer examines the UUT schematic with an eye toward following the RF signal path. Using Huntron Workstation Software, points along that path are selected for Virtual Test Points (VTP). A set of known good boards are then scanned making and saving Near Field signatures at the VTP's. Unknown UUT's are scanned with the same VTP's against the saved signatures. Any deviation against stored signatures indicates areas of concern.
Near Field Signature Analysis (NFSA) is close proximity sensing of EM fields emanating from RF circuitry. Near Fields are close to active circuits with the strength dependent on power and circuit design. AC circuits radiate a unique frequency and magnitude “signature” being a function of frequency of operation, magnitude, distance to the test probe and geometric location of the probe.
The RF NFSA Prober will be available from Huntron to USA customers only in early 2009. Contact Huntron for more details on Near Field Signature Analysis.
Download the latest NFSA RF Prober brochure now!
Huntron Access USB Probers
The NEW Huntron Access USB Probers are the latest versions of the popular robotic probers used to automate testing of complex printed circuit boards. The Access USB Probers come in two sizes - the Access USB Prober can handle PCBs up to 19.4” by 14” and the larger Access 2 USB Prober can hold PCBs up to 22” by 23” in size. The new Probers come with a USB Probe Tip camera to monitor the probe placement as the test progresses. Both Probers uses linear encoders for incredible 20 micron accuracy. The new Access USB Probers can also be ordered with the Tracker Model 30 embedded inside the chassis for a space saving, all-in-one platform.
Download the latest Diagnostic Systems brochure now!
Huntron's flexible, automated diagnostic solutions help people solve circuit card problems.
Huntron was founded in 1976 with the introduction of the Huntron Tracker®, the pioneering troubleshooting tool that uses power-off signature analysis to identify component failures on printed circuit boards.
Today, Huntron's reputation in providing automated power-off diagnostics results in instrumentation and software for test, inspection and repair of electronic printed circuit assemblies.
As density and complexity increase, printed circuit assemblies become tougher to probe and test. Huntrom complements conventional test equipment with access and test tools that catch the elusive problems other test methods often miss. The keys are physical and virtual access, which translates into meaningful results such as shorther design cycles, improved production yield and lower warranty costs. When you need to test, diagnose or troubleshoot complex circuit boards, Huntron lets you access, explore and discover more.
Contact us for more information on how we can help solve your test and troubleshooting needs
With today's val
id concerns for protection of our environment, the recovery, repair and recycling of printed circuit assemblies (PCAs) is a positive move towards sustainable environmental-friendly practices.
Huntron has been helping businesses troubleshoot and repair printed circuit assemblies for over 30 years. Repairing rather than discarding failed PCAs keeps the potentially harmful chemical components such as lead out of our world's landfills and disposal sites.
Below is a list of Huntron products to help you recover, repair and recycle PCAs:
• Huntron Tracker 2800
• Huntron Tracker Model 30
• Huntron TrackerPXI
• NFSA RF Prober
New Version of Huntron Workstation Available!
A new version of Huntron Workstation is now available for download. Go to the Workstation Support web page to download version 4.1.3273! Update December 22, 2008.
New Automated Near Field Signature Analysis
Combining the Huntron Access Robotic Probing Station, Huntron Workstation Software and the new Test Evolution (TEV) Non-Contact RF Near Field Probe with local synthetic measurement technology sets the standard for Near Field Signature Analysis (NFSA).
Placing the sensor, receiver and signal processing in one compact RF Probe assembly allows the sensing of EM fields emanating from RF circuitry. A specific position in a Near Field is defined as a Virtual Test Point™ (VTP) where a NFSA measurement is made. Identical circuits emanate nearly identical fields at the VTP. The combination of Huntron Prober and TEV RF Probe allows accurate positioning and measurement of VTPs. This provides the repeatability to measure VTP's from 200MHZ to 3GHZ on RF assemblies.
When used for test, an engineer examines the UUT schematic with an eye toward following the RF signal path. Using Huntron Workstation Software, points along that path are selected for Virtual Test Points (VTP). A set of known good boards are then scanned making and saving Near Field signatures at the VTP's. Unknown UUT's are scanned with the same VTP's against the saved signatures. Any deviation against stored signatures indicates areas of concern.
Near Field Signature Analysis (NFSA) is close proximity sensing of EM fields emanating from RF circuitry. Near Fields are close to active circuits with the strength dependent on power and circuit design. AC circuits radiate a unique frequency and magnitude “signature” being a function of frequency of operation, magnitude, distance to the test probe and geometric location of the probe.
The RF NFSA Prober will be available from Huntron to USA customers only in early 2009. Contact Huntron for more details on Near Field Signature Analysis.
Download the latest NFSA RF Prober brochure now!
Huntron Access USB Probers
The NEW Huntron Access USB Probers are the latest versions of the popular robotic probers used to automate testing of complex printed circuit boards. The Access USB Probers come in two sizes - the Access USB Prober can handle PCBs up to 19.4” by 14” and the larger Access 2 USB Prober can hold PCBs up to 22” by 23” in size. The new Probers come with a USB Probe Tip camera to monitor the probe placement as the test progresses. Both Probers uses linear encoders for incredible 20 micron accuracy. The new Access USB Probers can also be ordered with the Tracker Model 30 embedded inside the chassis for a space saving, all-in-one platform.
Download the latest Diagnostic Systems brochure now!
Huntron's flexible, automated diagnostic solutions help people solve circuit card problems.
Huntron was founded in 1976 with the introduction of the Huntron Tracker®, the pioneering troubleshooting tool that uses power-off signature analysis to identify component failures on printed circuit boards.
Today, Huntron's reputation in providing automated power-off diagnostics results in instrumentation and software for test, inspection and repair of electronic printed circuit assemblies.
As density and complexity increase, printed circuit assemblies become tougher to probe and test. Huntrom complements conventional test equipment with access and test tools that catch the elusive problems other test methods often miss. The keys are physical and virtual access, which translates into meaningful results such as shorther design cycles, improved production yield and lower warranty costs. When you need to test, diagnose or troubleshoot complex circuit boards, Huntron lets you access, explore and discover more.
Contact us for more information on how we can help solve your test and troubleshooting needs
18 Ocak 2009 Pazar
KYC compliance
Know Your Customer (KYC) compliance regulation has proved to be
one of the biggest operational challenges banks, accountants, lawyers and
similar financial service providers worldwide have had to
overcome.
World-Check, the industry standard KYC compliance solution,
provides an overview of KYC compliance and its origins, and outlines the
compliance mandate as applicable to banks, accounting firms, lawyers and other
regulated financial service providers – not just in the UK, Europe and the USA,
but all around the world. Relied upon by more than 3,000 institutions worldwide,
this KYC database solution provides effective legal and reputational risk
reduction.
Why “Know Your Customer?”
The 9/11 terrorist
attacks on the World Trade Centre revealed that there were sinister forces at
work around the world, and that terrorists activities were being funded with
laundered money, the proceeds of illicit activities such as narcotics and human
trafficking, fraud and organised crime. Overnight, the combating of terrorist
financing became a priority on the international agenda.
For the
financial services provider of the 21st century, “knowing your customers” was no
longer a suggested course of action. Based on the requirements of legislative
landmarks such as the USA PATRIOT Act 2002, modern Know Your Customer (KYC)
compliance mandates were created to simultaneously combat money laundering and
the funding of terrorist activities.
What is Know Your Customer
(KYC)?
Know Your Customer, or KYC, refers to the regulatory
compliance mandate imposed on financial service providers to implement a
Customer Identification Programme and perform due diligence checks before doing
business with a person or entity.
KYC fulfils a risk mitigation function,
and one its key requirements is checking that a prospective customer is not
listed on any government lists for wanted money launders, known fraudsters or
terrorists.
If preliminary KYC checks reveal that the person is a
Politically Exposed Person (PEP), for example, Advanced Due Diligence must be
done in order to ensure that the person’s source of wealth is transparent, and
that he or she does not pose a reputational or financial risk in terms of their
finances, public positions or associations. Beyond customer identification
checks, the ongoing monitoring of transfers and financial transactions against a
range of risk variables forms an integral part of the KYC compliance
mandate.
But to understand the importance of KYC compliance for financial
service providers better, its origins need to be examined.
Origins of
Know Your Customer (KYC) compliance
The arrival of the new millennium
was marred by a spate of terrorist attacks and corporate scandals that unmasked
the darker features of globalisation. These events highlighted the role of money
laundering in cross-border crime and terrorism, and underlined the need to clamp
down on the exploitation of financial systems worldwide.
Know Your
Customer (KYC) legislation was principally not absent prior to 9/11. Regulated
financial service providers for a long time have been required to conduct due
diligence and customer identification checks in order to mitigate their own
operation risks, and to ensure a consistent and acceptable level of
service.
In essence, the USA PATRIOT Act was not so much a radical
departure from prior legislation as it was a firmer and more extensive
articulation of existing laws. The Act would lead to the more rigorous
regulation of a greater range of financial services providers, and expanded the
authority of American law enforcement agencies in the fighting of terrorism,
both in the USA and abroad.
In October 2001, President George W. Bush
signed off the USA PATRIOT Act, effectively providing federal regulators with a
new range of tools and powers for fighting terror financing and money
laundering. During July 2002, the US Treasury proceeded to introduce Section 326
of the PATRIOT Act, a clause that removed some key burdens for regulators and
added significant enforcement muscle to the Act.
What 9/11 changed, in
essence, was the extent to which existing legislation was being implemented.
Using the provisions of the earlier anti-terrorism USA Act as a foundation, it
included the Financial Anti-Terrorism Act, which allowed for federal
jurisdiction over foreign money launders and money laundered through foreign
banks. Significantly, it is this anti-terror law that would make the creation of
an Anti Money Laundering (AML) programme compulsory for all financial
institutions and service providers.
Section 326 of the USA PATRIOT Act
dealt specifically with the identification of new customers (“CIP regulation”),
and made extensive provisions in terms of KYC and the methods employed to verify
client identities.
In accordance with this piece of updated KYC
legislation, federal regulators would hold financial institutions accountable
for the effectiveness of their initial customer identification and ongoing KYC
screening. Institutions are required to keep detailed records of the steps that
were taken to verify prospective clients’ identities.
Although current
KYC legislation does not yet demand the exclusion of specific types of
foreign-issued identification, it recommends the usage of machine-verifiable
identity documents. The ability to notify financial institutions if concerns
regarding specific types of identification were to arise, combined with a
risk-based approach to KYC, proved to provide a robust mechanism for addressing
security concerns.
Effectively, the risk-based approach to customer due
diligence grants regulated institutions a certain degree of flexibility to
determine the forms of identification they will accept, and under which
conditions.
KYC compliance: Implications for banks, lawyers and
accounting firms
The KYC compliance mandate, for all its positive
outcomes, has burdened companies and organisations with a substantial
administrative obligation. Additionally, KYC compliance increasingly entails the
creation of auditable proof of due diligence activities, in addition to the need
for customer identification.
one of the biggest operational challenges banks, accountants, lawyers and
similar financial service providers worldwide have had to
overcome.
World-Check, the industry standard KYC compliance solution,
provides an overview of KYC compliance and its origins, and outlines the
compliance mandate as applicable to banks, accounting firms, lawyers and other
regulated financial service providers – not just in the UK, Europe and the USA,
but all around the world. Relied upon by more than 3,000 institutions worldwide,
this KYC database solution provides effective legal and reputational risk
reduction.
Why “Know Your Customer?”
The 9/11 terrorist
attacks on the World Trade Centre revealed that there were sinister forces at
work around the world, and that terrorists activities were being funded with
laundered money, the proceeds of illicit activities such as narcotics and human
trafficking, fraud and organised crime. Overnight, the combating of terrorist
financing became a priority on the international agenda.
For the
financial services provider of the 21st century, “knowing your customers” was no
longer a suggested course of action. Based on the requirements of legislative
landmarks such as the USA PATRIOT Act 2002, modern Know Your Customer (KYC)
compliance mandates were created to simultaneously combat money laundering and
the funding of terrorist activities.
What is Know Your Customer
(KYC)?
Know Your Customer, or KYC, refers to the regulatory
compliance mandate imposed on financial service providers to implement a
Customer Identification Programme and perform due diligence checks before doing
business with a person or entity.
KYC fulfils a risk mitigation function,
and one its key requirements is checking that a prospective customer is not
listed on any government lists for wanted money launders, known fraudsters or
terrorists.
If preliminary KYC checks reveal that the person is a
Politically Exposed Person (PEP), for example, Advanced Due Diligence must be
done in order to ensure that the person’s source of wealth is transparent, and
that he or she does not pose a reputational or financial risk in terms of their
finances, public positions or associations. Beyond customer identification
checks, the ongoing monitoring of transfers and financial transactions against a
range of risk variables forms an integral part of the KYC compliance
mandate.
But to understand the importance of KYC compliance for financial
service providers better, its origins need to be examined.
Origins of
Know Your Customer (KYC) compliance
The arrival of the new millennium
was marred by a spate of terrorist attacks and corporate scandals that unmasked
the darker features of globalisation. These events highlighted the role of money
laundering in cross-border crime and terrorism, and underlined the need to clamp
down on the exploitation of financial systems worldwide.
Know Your
Customer (KYC) legislation was principally not absent prior to 9/11. Regulated
financial service providers for a long time have been required to conduct due
diligence and customer identification checks in order to mitigate their own
operation risks, and to ensure a consistent and acceptable level of
service.
In essence, the USA PATRIOT Act was not so much a radical
departure from prior legislation as it was a firmer and more extensive
articulation of existing laws. The Act would lead to the more rigorous
regulation of a greater range of financial services providers, and expanded the
authority of American law enforcement agencies in the fighting of terrorism,
both in the USA and abroad.
In October 2001, President George W. Bush
signed off the USA PATRIOT Act, effectively providing federal regulators with a
new range of tools and powers for fighting terror financing and money
laundering. During July 2002, the US Treasury proceeded to introduce Section 326
of the PATRIOT Act, a clause that removed some key burdens for regulators and
added significant enforcement muscle to the Act.
What 9/11 changed, in
essence, was the extent to which existing legislation was being implemented.
Using the provisions of the earlier anti-terrorism USA Act as a foundation, it
included the Financial Anti-Terrorism Act, which allowed for federal
jurisdiction over foreign money launders and money laundered through foreign
banks. Significantly, it is this anti-terror law that would make the creation of
an Anti Money Laundering (AML) programme compulsory for all financial
institutions and service providers.
Section 326 of the USA PATRIOT Act
dealt specifically with the identification of new customers (“CIP regulation”),
and made extensive provisions in terms of KYC and the methods employed to verify
client identities.
In accordance with this piece of updated KYC
legislation, federal regulators would hold financial institutions accountable
for the effectiveness of their initial customer identification and ongoing KYC
screening. Institutions are required to keep detailed records of the steps that
were taken to verify prospective clients’ identities.
Although current
KYC legislation does not yet demand the exclusion of specific types of
foreign-issued identification, it recommends the usage of machine-verifiable
identity documents. The ability to notify financial institutions if concerns
regarding specific types of identification were to arise, combined with a
risk-based approach to KYC, proved to provide a robust mechanism for addressing
security concerns.
Effectively, the risk-based approach to customer due
diligence grants regulated institutions a certain degree of flexibility to
determine the forms of identification they will accept, and under which
conditions.
KYC compliance: Implications for banks, lawyers and
accounting firms
The KYC compliance mandate, for all its positive
outcomes, has burdened companies and organisations with a substantial
administrative obligation. Additionally, KYC compliance increasingly entails the
creation of auditable proof of due diligence activities, in addition to the need
for customer identification.
15 Ocak 2009 Perşembe
contrAA®
Analytik Jena brings an innovation on the market — the contrAA® series — which exceeds the performance of conventional AA spectrometers in all parameters.
This new technology — High-Resolution Continuum Source AAS — represents previously unattained effectiveness
and quality of measurement results. Following decades of experience in the development of spectrometers and graphite furnaces and in cooperation with partners from leading research institutes, a vision becomes reality — the start of a new generation in AAS, with the contrAA® series, which finally closes the gap between ICP OES and AAS.
High-Resolution Continuum Source AAS (HR-CS AAS) covers the complete spectral range from the near vacuum-UV to the near infrared with a single continuum source, providing innovative capabilities. For the first time, genuine sequential multi-element analysis is implemented in AAS without the need for a multitude of different light sources.
At first glance:
Maximum versatility and flexibility
Guaranteed stability
Improved accuracy
Maximum information content
Speed for higher efficiency
New level of performance
Fast sequential multi-element determination for flame AAS
Simultaneous background correction
Full post processing of measurement (FPP)
Unique Flexibility
The xenon short-arc lamp as a continuum source is ideal for any element to be analyzed. No matter how frequently or seldom you have to determine an element, the HR-CS AAS instrument is immediately ready for measurement. You have every freedom for line selection, as the source covers the entire continuous wavelength range. All absorbing atom lines are immediately available, irrespective of the emission properties of the HCL (such as windows transmissive to UV or visible radiation). In addition, several new types of lines can be used for analysis.
Immediate Readiness for Measurement
The immediate readiness for measurement provided by HR-CS AAS is due to the fact that the lamp needs no fixed warm-up time to avoid output drift. Innovative correction algorithms continuously compensate any drift or fluctuation of the spectrometer including the source.
Improved Performance
HR-CS AAS features an improved signal-to-noise ratio and markedly better detection limits. This is due to the higher radiation density of the Xe continuum source compared to HCLs, and the enormously increased quantum efficiency of a CCD semiconductor detector compared to the photomultiplier tube commonly used in line-source AAS (LS AAS). HR-CS AAS is the first technique that c an efficiently correct spectral interferences in flame AAS by structured flames or molecule structures. This provides improved simultaneous background correction, and capabilities to correct spectral interferences to increase the accuracy of analytical results
,,,alıntı,,,
This new technology — High-Resolution Continuum Source AAS — represents previously unattained effectiveness
and quality of measurement results. Following decades of experience in the development of spectrometers and graphite furnaces and in cooperation with partners from leading research institutes, a vision becomes reality — the start of a new generation in AAS, with the contrAA® series, which finally closes the gap between ICP OES and AAS.
High-Resolution Continuum Source AAS (HR-CS AAS) covers the complete spectral range from the near vacuum-UV to the near infrared with a single continuum source, providing innovative capabilities. For the first time, genuine sequential multi-element analysis is implemented in AAS without the need for a multitude of different light sources.
At first glance:
Maximum versatility and flexibility
Guaranteed stability
Improved accuracy
Maximum information content
Speed for higher efficiency
New level of performance
Fast sequential multi-element determination for flame AAS
Simultaneous background correction
Full post processing of measurement (FPP)
Unique Flexibility
The xenon short-arc lamp as a continuum source is ideal for any element to be analyzed. No matter how frequently or seldom you have to determine an element, the HR-CS AAS instrument is immediately ready for measurement. You have every freedom for line selection, as the source covers the entire continuous wavelength range. All absorbing atom lines are immediately available, irrespective of the emission properties of the HCL (such as windows transmissive to UV or visible radiation). In addition, several new types of lines can be used for analysis.
Immediate Readiness for Measurement
The immediate readiness for measurement provided by HR-CS AAS is due to the fact that the lamp needs no fixed warm-up time to avoid output drift. Innovative correction algorithms continuously compensate any drift or fluctuation of the spectrometer including the source.
Improved Performance
HR-CS AAS features an improved signal-to-noise ratio and markedly better detection limits. This is due to the higher radiation density of the Xe continuum source compared to HCLs, and the enormously increased quantum efficiency of a CCD semiconductor detector compared to the photomultiplier tube commonly used in line-source AAS (LS AAS). HR-CS AAS is the first technique that c an efficiently correct spectral interferences in flame AAS by structured flames or molecule structures. This provides improved simultaneous background correction, and capabilities to correct spectral interferences to increase the accuracy of analytical results
,,,alıntı,,,
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