1999 New Year Slots 1.1 serial key or number

1999 New Year Slots 1.1 serial key or number

1999 New Year Slots 1.1 serial key or number

1999 New Year Slots 1.1 serial key or number

Pentium III

Line of desktop and mobile microprocessors produced by Intel
General information
LaunchedFebruary 26, 1999
DiscontinuedMay 18, 2007[1]
Common manufacturer(s)
Performance
Max. CPUclock rate400 MHz to 1.4 GHz
FSB speeds100 MHz to 133 MHz
Architecture and classification
Min. feature size0.25 μm to 0.13 μm
MicroarchitectureP6
Instruction setIA-32, MMX, SSE
Physical specifications
Cores
Socket(s)
Products, models, variants
Core name(s)
  • Katmai
  • Coppermine
  • Coppermine T
  • Tualatin
History
PredecessorPentium II
SuccessorPentium 4, Xeon, Celeron, Pentium M

The Pentium III[2] (marketed as Intel Pentium III Processor, informally PIII, and stylized as pentium !!!) brand refers to Intel's 32-bitx86 desktop and mobile microprocessors based on the sixth-generation P6 microarchitecture introduced on February 26, 1999. The brand's initial processors were very similar to the earlier Pentium II-branded microprocessors. The most notable differences were the addition of the SSEinstruction set (to accelerate floating point and parallel calculations), and the introduction of a controversial serial number embedded in the chip during the manufacturing process.

Even after the release of the Pentium 4 in late 2000, the Pentium III continued to be produced with new models introduced until early 2003, and were discontinued in April 2004 for desktop units[3] and May 2007 for mobile units.[1]

Processor cores[edit]

Similarly to the Pentium II it superseded, the Pentium III was also accompanied by the Celeron brand for lower-end versions, and the Xeon for high-end (server and workstation) derivatives. The Pentium III was eventually superseded by the Pentium 4, but its Tualatin core also served as the basis for the Pentium MCPUs, which used many ideas from the P6 microarchitecture. Subsequently, it was the Pentium M microarchitecture of Pentium M branded CPUs, and not the NetBurst found in Pentium 4 processors, that formed the basis for Intel's energy-efficient Core microarchitecture of CPUs branded Core 2, Pentium Dual-Core, Celeron (Core), and Xeon.

Intel Pentium III processor family
Standard Logo (1999-2003) Mobile Logo (1999-2003) Desktop
Code-named Core Date released
Katmai
Coppermine
Coppermine T
Tualatin
(250 nm)
(180 nm)
(180 nm)
(130 nm)
February 1999
October 1999
June 2001
June 2001
List of Intel Pentium III microprocessors

Katmai[edit]

A Pentium III Katmai SECC2 cartridge with heatsink removed.

The first Pentium III variant was the Katmai (Intel product code 80525). It was a further development of the Deschutes Pentium II. The Pentium III saw an increase of 2 million transistors over the Pentium II. The differences were the addition of execution units and SSE instruction support, and an improved L1 cache controller[citation needed] (the L2 cache controller was left unchanged, as it would be completely redesigned for Coppermine anyway), which were responsible for the minor performance improvements over the "Deschutes" Pentium IIs. It was first released at speeds of 450 and 500 MHz in February 1999. Two more versions were released: 550 MHz on May 17, 1999 and 600 MHz on August 2, 1999. On September 27, 1999 Intel released the 533B and 600B running at 533 & 600 MHz respectively. The 'B' suffix indicated that it featured a 133 MHz FSB, instead of the 100 MHz FSB of previous models.

The Katmai contains 9.5 million transistors, not including the 512 Kbytes L2 cache (which adds 25 million transistors), and has dimensions of 12.3 mm by 10.4 mm (128 mm2). It is fabricated in Intel's P856.5 process, a 0.25 micrometre CMOS process with five levels of aluminum interconnect.[4] The Katmai used the same slot-based design as the Pentium II but with the newer SECC2 cartridge that allowed direct CPU core contact with the heat sink. There have been some early models of the Pentium III with 450 and 500 MHz packaged in an older SECC cartridge intended for OEMs.

A notable stepping for enthusiasts was SL35D. This version of Katmai was officially rated for 450 MHz, but often contained cache chips for the 600 MHz model and thus usually was capable of running at 600 MHz.

Coppermine[edit]

A 900 MHz Coppermine FC-PGA Pentium III.

The second version, codenamed Coppermine (Intel product code: 80526), was released on October 25, 1999, running at 500, 533, 550, 600, 650, 667, 700, and 733 MHz. From December 1999 to May 2000, Intel released Pentium IIIs running at speeds of 750, 800, 850, 866, 900, 933 and 1000 MHz (1 GHz). Both 100 MHz FSB and 133 MHz FSB models were made. For models that were already available with the same frequency, an "E" was appended to the model name to indicate cores using the new 0.18 μm fabrication process. An additional "B" was later appended to designate 133 MHz FSB models, resulting in an "EB" suffix. In terms of overall performance, the Coppermine held a slight advantage over the AMD Athlons it was released against, which was reversed when AMD applied their own die shrink and added an on-die L2 cache to the Athlon. Athlon held the advantage in floating-point intensive code, while the Coppermine could perform better when SSE optimizations were used, but in practical terms there was little difference in how the two chips performed, clock-for-clock. However, AMD were able to clock the Athlon higher, reaching speeds of 1.2 GHz before the launch of the Pentium 4.

In terms of performance, Coppermine arguably marked a bigger step than Katmai by introducing an on-chip L2 cache (which Intel called Advanced Transfer Cache, or ATC). The ATC operates at the core clock rate and has a capacity of 256 KB, twice that of the on-chip cache previously seen on Mendocino Celerons. It is eight-way set-associative and is accessed via a Double Quad Word Wide 256-bit bus, four times as wide as Katmai's. Furthermore, latency was dropped to a quarter compared to Katmai. Another marketing term by Intel was Advanced System Buffering, which encompassed improvements to better take advantage of a 133 MHz system bus. These include 6 fill buffers (vs. 4 on Katmai), 8 bus queue entries (vs. 4 on Katmai) and 4 write-back buffers (vs. 1 on Katmai).[5] Under competitive pressure from the AMDAthlon, Intel re-worked the internals, finally removing some well-known pipeline stalls.[citation needed] The result was that applications affected by these pipeline stalls ran faster on the Coppermine by up to 30%.[citation needed] The Coppermine contained 29 million transistors and was fabricated in a 0.18 μm process.

Although its codename could give the impression that it used copper interconnects, its interconnects were in fact aluminium. The Coppermine was available in 370-pin FC-PGA or FC-PGA2 for use with Socket 370, or in SECC2 for Slot 1 (all speeds except 900 and 1100). FC-PGA and Slot 1 Coppermine CPUs have an exposed die, however most higher frequency SKUs starting with the 866 MHz model were also produced in FC-PGA2 variants that feature an integrated heat spreader (IHS). This in itself did not improve thermal conductivity, since it added another layer of metal and thermal paste between the die and the heatsink, but it greatly assisted in holding the heatsink flat against the die. Earlier Coppermines without the IHS made heatsink mounting challenging.[6] If the heatsink was not situated flat against the die, heat transfer efficiency was greatly reduced. Some heatsink manufacturers began providing pads on their products, similar to what AMD did with the "Thunderbird" Athlon to ensure that the heatsink was mounted flatly. The enthusiast community went so far as to create shims to assist in maintaining a flat interface.[7]

A 1.13 GHz version (S-Spec SL4HH) was released in mid-2000 but famously recalled after a collaboration between HardOCP and Tom's Hardware[8] discovered various instabilities with the operation of the new CPU speed grade. The Coppermine core was unable to reliably reach the 1.13 GHz speed without various tweaks to the processor's microcode, effective cooling, additional voltage (1.75 V vs. 1.65 V), and specifically validated platforms.[8] Intel only officially supported the processor on its own VC820 i820-based motherboard, but even this motherboard displayed instability in the independent tests of the hardware review sites. In benchmarks that were stable, performance was shown to be sub-par, with the 1.13 GHz CPU equalling a 1.0 GHz model. Tom's Hardware attributed this performance deficit to relaxed tuning of the CPU and motherboard to improve stability.[9] Intel needed at least six months to resolve the problems using a new cD0 stepping and re-released 1.1 GHz and 1.13 GHz versions in 2001.

Microsoft's Xboxgame console uses a variant of the Pentium III/Mobile Celeron family in a Micro-PGA2 form factor. The sSpec designator of the chips is SL5Sx, which makes it more similar to the Mobile Celeron Coppermine-128 processor. It shares with the Coppermine-128 Celeron its 128 KB L2 cache, and 180 nm process technology, but keeps the 8-way cache associativity from the Pentium III.[10]

Coppermine T[edit]

This revision is an intermediate step between Coppermine and Tualatin, with support for lower-voltage system logic present on the latter but core power within previously defined voltage specs of the former so it could work in older system boards.

Intel used the latest FC-PGA2 Coppermines with the cD0 stepping and modified them so that they worked with low voltage system bus operation at 1.25 V AGTL as well as normal 1.5 V AGTL+ signal levels, and would auto detect differential or single-ended clocking. This modification made them compatible to the latest generation Socket 370 boards supporting Tualatin CPUs while maintaining compatibility with older Socket 370 boards. The Coppermine-T also had two way symmetrical multiprocessing capabilities, but only in Tualatin boards.

They can be distinguished from Tualatin processors by their part numbers, which include the digits "80533", e.g. the 1133 MHz SL5QK P/N is RK80533PZ006256, while the 1000 MHz SL5QJ P/N is RK80533PZ001256.[11]

Tualatin[edit]

A 1.13 GHz FC-PGA2 Tualatin-256 Intel Pentium III-T.

The third revision, Tualatin (80530), was a trial for Intel's new 0.13 μm process. Tualatin-based Pentium IIIs were released during 2001 until early 2002 at speeds of 1.0, 1.13, 1.2, 1.26, 1.33 and 1.4 GHz. A basic shrink of Coppermine, no new features were added, except for added data prefetch logic similar to Pentium 4 and Athlon XP for potentially better use of the L2 cache, although its use compared to these newer CPUs is limited due to the relatively smaller FSB bandwidth (FSB was still kept at 133 MHz).[12] Variants with 256 and 512 KB L2 cache were produced, the latter being dubbed Pentium III-S; this variant was mainly intended for low-power consumption servers and also exclusively featured SMP support within the Tualatin line.

Although the Socket 370 designation was kept, the use of 1.25 AGTL signaling in place of 1.5V AGTL+ rendered previous motherboards incompatible.[12] This confusion carried over to the chipset naming, where only the B-stepping of the i815 chipset was compatible with Tualatin processors.[13] A new VRM guideline was also designed by Intel, version 8.5, which required finer voltage steps and debuted load line Vcore (in place of fixed voltage regardless of current on 8.4).[14][15][16] Some motherboard manufacturers would mark the change with blue sockets (instead of white), and were often also backwards compatible with Coppermine CPUs.

The Tualatin also formed the basis for the highly popular Pentium III-M mobile processor, which became Intel's front-line mobile chip (the Pentium 4 drew significantly more power, and so was not well-suited for this role) for the next two years. The chip offered a good balance between power consumption and performance, thus finding a place in both performance notebooks and the "thin and light" category.

The Tualatin-based Pentium III performed well in some applications compared to the fastest Willamette-based Pentium 4, and even the Thunderbird-based Athlons. Despite this, its appeal was limited due to the aforementioned incompatibility with existing systems, and Intel's only officially supported chipset for Tualatins, the i815, could only handle 512 MB RAM as opposed to 1 GB of registered RAM with the older, incompatible 440BX chipset. However, the enthusiast community found a way to run Tualatins on then-ubiquitous BX chipset based boards, although it was often a non-trivial task and required some degree of technical skills.

Tualatin-based Pentium III CPUs can usually be visually distinguished from Coppermine-based processors by the metal integrated heat-spreader (IHS) fixed on top of the package. However, the very last models of Coppermine Pentium IIIs also featured the IHS — the integrated heat spreader is actually what distinguishes the FC-PGA2 package from the FC-PGA — both are for Socket 370 motherboards.[17]

Before the addition of the heat spreader, it was sometimes difficult to install a heatsink on a Pentium III. One had to be careful not to put force on the core at an angle because doing so would cause the edges and corners of the core to crack and could destroy the CPU. It was also sometimes difficult to achieve a flat mating of the CPU and heatsink surfaces, a factor of critical importance to good heat transfer. This became increasingly challenging with the Socket 370 CPUs, compared with their Slot 1 predecessors, because of the force required to mount a socket-based cooler and the narrower, 2-sided mounting mechanism (Slot 1 featured 4-point mounting). As such, and because the 0.13 μm Tualatin had an even smaller core surface area than the 0.18 μm Coppermine, Intel installed the metal heatspreader on Tualatin and all future desktop processors.

The Tualatin core was named after the Tualatin Valley and Tualatin River in Oregon, where Intel has large manufacturing and design facilities.

Pentium III's SSE implementation[edit]

Slot 1 Pentium III CPU mounted on a motherboard

Since Katmai was built in the same 0.25 µm process as Pentium II "Deschutes", it had to implement SSE using as little silicon as possible.[18] To achieve this goal, Intel implemented the 128-bit architecture by double-cycling the existing 64-bit data paths and by merging the SIMD-FP multiplier unit with the x87 scalar FPU multiplier into a single unit. To utilize the existing 64-bit data paths, Katmai issues each SIMD-FP instruction as two μops. To compensate partially for implementing only half of SSE's architectural width, Katmai implements the SIMD-FP adder as a separate unit on the second dispatch port. This organization allows one half of a SIMD multiply and one half of an independent SIMD add to be issued together bringing the peak throughput back to four floating point operations per cycle — at least for code with an even distribution of multiplies and adds.[4][19]

The issue was that Katmai's hardware-implementation contradicted the parallelism model implied by the SSE instruction-set. Programmers faced a code-scheduling dilemma: "Should the SSE-code be tuned for Katmai's limited execution resources, or should it be tuned for a future processor with more resources?" Katmai-specific SSE optimizations yielded the best possible performance from the Pentium III family but was suboptimal for Coppermine onwards as well as future Intel processors, such as the Pentium 4 and Core series.

Core specifications[edit]

Katmai (0.25 μm)[edit]

  • L1-Cache: 16 + 16 KB (data + instructions)
  • L2-Cache: 512 KB, external chips on CPU module at 50% of CPU-speed
  • MMX, SSE
  • Slot 1 (SECC, SECC2)
  • VCore: 2.0 V, (600 MHz: 2.05 V)
  • Clockrate: 450–600 MHz
    • 100 MHz FSB: 450, 500, 550, 600 MHz (These models have no letter after the speed)
    • 133 MHz FSB: 533, 600 MHz

Coppermine (0.18 μm)[edit]

  • L1-Cache: 16 + 16 KB (data + instructions)
  • L2-Cache: 256 KB, full speed
  • MMX, SSE
  • Slot 1 (SECC2), Socket 370 (FC-PGA, FC-PGA2)
  • Front side bus: 100, 133 MHz
  • VCore: 1.6 V, 1.65 V, 1.70 V, 1.75 V
  • First release: October 25, 1999
  • Clockrate: 500–1133 MHz
    • 100 MHz FSB: 500, 550, 600, 650, 700, 750, 800, 850, 900, 1000, 1100 MHz (E-Models)
    • 133 MHz FSB: 533, 600, 667, 733, 800, 866, 933, 1000, 1133 MHz (EB-Models)

Coppermine T (0.18 μm)[edit]

  • L1-Cache: 16 + 16 KB (data + instructions)
  • L2-Cache: 256 KB, full speed
  • MMX, SSE
  • Socket 370 (FC-PGA, FC-PGA2)
  • Front side bus: 133 MHz
  • VCore: 1.75 V
  • First release: August 2000
  • Clockrate: 800–1133 MHz
    • 133 MHz FSB: 800, 866, 933, 1000, 1133 MHz

Tualatin (0.13 μm)[edit]

  • L1-Cache: 16 + 16 KB (data + instructions)
  • L2-Cache: 256 or 512 KB, full speed
  • MMX, SSE, Hardware prefetch
  • Socket 370 (FC-PGA2)
  • Front side bus: 133 MHz
  • VCore: 1.45, 1.475 V
  • First release: 2001
  • Clockrate: 1000–1400 MHz
    • Pentium III (256 KB L2-Cache): 1000, 1133, 1200, 1333, 1400 MHz
    • Pentium III-S (512 KB L2-Cache): 1133, 1266, 1400 MHz

Controversy about privacy issues[edit]

The Pentium III was the first x86 CPU to include a unique, retrievable, identification number, called PSN (Processor Serial Number). A Pentium III's PSN can be read by software through the CPUID instruction if this feature has not been disabled through the BIOS.

On November 29, 1999, the Science and Technology Options Assessment (STOA) Panel of the European Parliament, following their report on electronic surveillance techniques asked parliamentary committee members to consider legal measures that would "prevent these chips from being installed in the computers of European citizens."[20]

Intel eventually removed the PSN feature from Tualatin-based Pentium IIIs, and the feature was not present in Pentium 4 or Pentium M.

A largely equivalent feature, the PPIN (Protected Processor Identification Number) was later added to x86 CPUs with little public notice, starting with Intel's Ivy Bridge architecture and compatible Zen 2 AMD CPUs. It is implemented as a set of model-specific registers and is useful for machine check exception handling.[21]

Pentium III RNG (Random Number Generator)[edit]

A new feature was added to the Pentium III: a hardware-based random number generator.[22][23] It has been described as "several oscillators combine their outputs and that odd waveform is sampled asynchronously."[24] These numbers, however, were only 32 bit, at a time when export controls were on 56 bits and higher, so they weren't state of the art[25]

See also[edit]

References[edit]

  1. ^ ab"Product Change Notification #104109-00"(PDF). Intel. May 14, 2004. Archived from the original(PDF) on July 19, 2004. Retrieved October 14, 2019.
  2. ^Microprocessor Hall of Fame, Intel Corporation, archived from the original on April 6, 2008, retrieved August 11, 2007
  3. ^"Product Change Notification #102839-00"(PDF). Intel. October 14, 2002. Archived from the original(PDF) on March 22, 2003. Retrieved October 14, 2019.
  4. ^ abDiefendorff, Keith (March 8, 1999). "Pentium III = Pentium II + SSE: Internet SSE Architecture Boosts Multimedia Performance"(PDF). Microprocessor Report. 13 (3). Retrieved September 1, 2017.
  5. ^Pabst, Thomas (October 25, 1999). "Coppermine's New Enhancements". Retrieved September 1, 2017.
  6. ^"Alpha FC-PAL35T & POP66T Cooler Review". The Tech Zone. April 12, 2000. Archived from the original on June 27, 2006.
  7. ^Verbist, Tim. Copper Shims, Overclockers Online, December 3, 2000.
  8. ^ abPabst, Thomas. "Intel Admits Problems With Pentium III 1.13 GHz: Production and Shipments Halted". Tom's Hardware.
  9. ^Pabst, Thomas (August 28, 2000). "Latest Update On Intel's 1.13 GHz Pentium III". Tom's Hardware.
  10. ^"VHJ: More on the Xbox CPU". Van's Hardware Journal.
  11. ^Intel Pentium III Coppermine-T core, retrieved July 8, 2010
  12. ^ abShimpi, Anand Lal (July 30, 2001). "Intel Pentium III 1.2GHz 0.13-micron Tualatin: The Celeron of the Future". Anandtech. Retrieved April 5, 2018.
  13. ^"B-Stepping With The I815/Solano - Last Passing Maneuver: Tualatin 1266 With 512 kB Versus Athlon And P4". Tom's Hardware. September 19, 2001. Retrieved April 5, 2018.
  14. ^Labs, iXBT. "Server Tualatin CPU review". iXBT Labs. Retrieved April 5, 2018.
  15. ^Labs, iXBT. "iXBT Labs Review - Tualatin based Intel Celeron 1.2 GHz for Socket 370". iXBT Labs. Retrieved April 5, 2018.
  16. ^http://cdn14.21dianyuan.com/download.php?id=89124
  17. ^Lal Shimpi, Anand. Intel Pentium III 1.2 GHz 0.13-micron Tualatin: The Celeron of the Future, Anandtech, July 30, 2001.
  18. ^Jagannath Keshava, Vladimir Pentkovski (1999). "Pentium III Processor Implementation Tradeoffs"(PDF). Intel Technology Journal. Retrieved September 1, 2017.
  19. ^"Intel®Architecture Optimization - Reference Manual"(PDF). 1999. Retrieved September 1, 2017.
  20. ^Advisory group asks EU to consider Pentium III ban, CNN, November 29, 1999.
  21. ^Larabel, Michael (March 19, 2020). "AMD Plumbing Linux Support For Reading the CPU's Protected Processor Identification Number (PPIN)". Phoronix. Retrieved March 20, 2020.
  22. ^Robert Moscowitz (July 12, 1999). "Privacy's Random Nature". Network Computing.
  23. ^"Hardwiring Security". Wired. January 1999.
  24. ^Terry Ritter (January 21, 1999). "The Pentium III RNG".
  25. ^"HAVEGE: Hardware Volatile Entropy Gathering and Expansion".

External links[edit]

Intel datasheets

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, 1999 New Year Slots 1.1 serial key or number

Cisco 1800 Series

Cisco 1841

Target Applications

Secure data

Chassis

Form Factor

Desktop, 1-rack-unit (1RU) height (4.75 cm high with rubber feet)

Chassis

Metal

Wall-Mountable

Yes

Rack-Mountable

Yes (Optional Rackmount kit: ACS-1841-RM-19=)

Dimensions (W x D)

• 13.5 x 10.8 in. (34.3 x 27.4 cm)
• Height without rubber feet: 1.73 in. (4.39 cm)
• Height with rubber feet: 1.87 in. (4.75 cm)

Weight

• Maximum: 6.2 lb (2.8 kg); with interface cards and modules
• Minimum: 6.0 lb (2.7 kg) (no interface cards and modules)

Architecture

DRAM

Synchronous dual in-line memory module (DIMM) DRAM

DRAM Capacity

Flash Memory

External compact Flash

Flash Memory Capacity

Modular Slots-Total

Two

Modular Slots for WAN Access

Two

Modular Slots for HWICs

Two

Modular Slots for Voice Support

None-The Cisco 1841 does not support voice

Analog and Digital Voice Support

No

VoIP Support

Voice-over-IP (VoIP) pass-through only

Onboard Ethernet Ports

Two 10/100

Onboard USB Ports

One (1.1)

Console Port

One-up to 115.2 kbps

Auxiliary Port

One-up to 115.2 kbps

Onboard AIM Slots

One (internal)

Packet-Voice-DSP-Module (PVDM) Slots on Motherboard

None-The Cisco 1841 does not support voice

Integrated Hardware-based Encryption on Motherboard

Yes

Encryption Support in Software and Hardware by Default

DES, 3DES, AES 128, AES 192, AES 256

Power Supply Specifications

Internal Power Supply

Yes

Redundant Power Supply

No

DC Power Support

No

AC Input Voltage

100 to 240 VAC

Frequency

50 to 60 Hz

AC Input Current

1.5A maximum

Output Power

50W (maximum)

System Power Dissipation

153 BTU/hr

Software Support

First Cisco IOS Software Release

12.3(8)T

Cisco IOS Software default Image, Release

IP BASE, 12.4(15)T

Environmental

Operating Temperature

32 to 104°F (0 to 40°C)

Operating Humidity

10 to 85% noncondensing operating; 5 to 95% noncondensing, nonoperating

Nonoperating Temperature

-4 to 149°F (-25 to 65°C)

Operating Altitude

10,000 feet (3000 meters) @ 77°F (25°C)

Noise Level

Normal operating temperature:

• <78° F/26°C: 34 dBA
• >78°F/26°C through <104°F/40°C: 37 dBA
• >104°F/40°C: 42 dBA

Regulatory Compliance

Safety

EMI

• EN 55022, 1998, class A
• CFR47, Part 15, Subpart B, 1995, class A
• EN61000-3-2 Harmonic Current Emission (only for equipment >75W but <16A)
• EN61000-3-3 Voltage Fluctuation and Flicker (only for equipment ≤16A)

Immunity

• CISPR24, 1997 ITE-Immunity characteristics, Limits and methods of measurement
• EN 55024,1998 ITE-Immunity characteristics, Limits and methods of measurement
• EN50082-1, 1997 Electromagnetic compatibility-Generic immunity standard, Part 1
• EN 300 386, 1997 Telecommunications network equipment EMC requirements
• The requirements are covered by the following standards:
• IEC 61000-4-2:1995 Immunity to Electrostatic Discharges
• IEC 61000-4-3:1995 Immunity to Radio Frequency Electromagnetic Fields
• IEC 61000-4-4:1995 Immunity to Electrical Fast Transients
• IEC 61000-4-5:1995 Immunity to Power Line Transients (Surges)
• IEC 61000-4-6:1996 Immunity to Radio Frequency Induced Conducted Disturbances
• IEC 61000-4-11:1995 Immunity to Voltage Dips, Voltage Variations, and Short Voltage Interruptions

Network Homologation

• USA-TIA-968-A, T1.TRQ.6-2001
• European Union-RTTE Directive 5/99
• Australia-AS/ACIF S002, S003, S016, S031, 3043
• Brazil-225-540-788, CTR3, 225-100-717 Edition 3, NET 001/92 1990
• China-ITU-G.992.1, ITU-G.992.1, ITU-G.991.2, CTR3, ITU I.431 1993
• Hong Kong-HKTA 2033, HKTA 2033, HKTA 2014, HKTA 2017 Issue 3 2003, HKTA 2011 Issue 1, HKTA 2011 Issue 2, HKTA 2013 Issue 1
• India-I_DCA_18_02_Jun_99-199, S/ISN-01/02 Issue 1999 S/ISN-02 1 1998, IR/PRI-01/02 Issue 1 1998, S/INT-2W/02 MAY 2001, S/INT-2W/02 MAY 2001
• Israel-U.S. approval accepted
• Japan-Technical condition (DoC acceptance in process)
• Korea-U.S. approval accepted
• Mexico-U.S. approval accepted
• New Zealand-PTC 270/272, CTR 3, ACA 016 Revision 4 1997, PTC 200
• Singapore-IDA TS ADSL1 Issue 1, IDA TS ADSL 2, IDA TS HDSL, IDA TS ISDN 1 Issue 1 1999, IDA TS ISDN 3 Issue 1 1999, IDA TS PSTN 1 Issue 4, IDA TS PSTN 1 Issue 4, IDA TS PSTN 1 Issue 4
• South Africa-U.S. approval accepted
• Taiwan-U.S. approval accepted
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