Manuals / Seagate / Computer Equipment / Computer Drive

Seagate ST31000640SS, ST3750630SS Receiver jitter tolerance, Compliant jitter test pattern Cjtpat

Models: ST31000640SS ST3500620SS ST3750630SS

1 82
Download 82 pages 30.86 Kb
Page 69
Image 69

9.5.2.3.2Receiver jitter tolerance

Table 19 defines the amount of jitter the receiver shall tolerate.

Table 19: Receiver jitter tolerance

 

1.5 Gbpsa

 

 

3.0 Gbpsa

 

Sinusoidal

Deterministic

Total

Sinusoidal

Deterministic

Total

jitterb,c

jittere,f,h

jitterh

jitterb,d

jittere,g,h

jitterh

0.10

0.35

0.65

0.10

0.35

0.65

 

 

 

 

 

 

aUnits are in UI.

bThe jitter values given are normative for a combination of deterministic jitter, random jitter, and sinusoidal jitter that receivers shall be able to tolerate without exceeding a BER of 10-12. Receivers shall tolerate sinusoidal jitter of progressively greater amplitude at lower frequencies, according to the mask in figure 18 with the same deterministic jitter and random jitter levels as were used in the high frequency sweep.

cSinusoidal swept frequency: 900 kHz to > 5 MHz.

dSinusoidal swept frequency: 1.800 kHz to > 5 MHz.

eNo value is given for random jitter. For compliance with this standard, the actual random jitter amplitude shall be the value that brings total jitter to the stated value at a probability of 10-12. The additional 0.1 UI of sinusoidal jitter is added to ensure the receiver has sufficient operating margin in the presence of external interference.

fDeterministic jitter: 900 kHz to 750 MHz.

gDeterministic jitter: 1.800 kHz to 1.500 MHz.

hThe deterministic and total values in this table apply to jitter after application of a single pole high-pass frequency- weighting function that progressively attenuates jitter at 20 dB/decade below a frequency of ((bit rate) / 1.667).

9.5.2.3.3Compliant jitter test pattern (CJTPAT)

The CJTPAT within a compliant protocol frame is used for all jitter testing unless otherwise specified. See the SAS Interface Manual for definition of the required pattern on the physical link and information regarding spe- cial considerations for scrambling and running disparity.

9.5.2.3.4Impedance specifications

Table 20 defines impedance requirements.

Table 20: Impedance requirements (Sheet 1 of 2)

Requirement

Units

1.5 Gbps

3.0 Gbps

 

 

 

 

Time domain reflectometer rise time 20 % to 80 %a,b

ps

100

50

Media (PCB or cable)

 

 

 

 

 

 

 

Differential impedanceb,c,d

ohm

100 ± 10

100 ± 10

Differential impedance imbalanceb,c,d,g

ohm

5

5

Common mode impedanceb,c,d

ohm

32.5 ± 7.5

32.5 ± 7.5

Mated connectors

 

 

 

 

 

 

 

Differential impedanceb,c,d

ohm

100 ± 15

100 ± 15

Differential impedance imbalanceb,c,d,g

ohm

5

5

Common mode impedanceb,c,d

ohm

32.5 ± 7.5

32.5 ± 7.5

Receiver termination

 

 

 

 

 

 

 

Differential impedanceb,e,f

ohm

100 ± 15

100 ± 15

Differential impedance imbalanceb,e,f,g

ohm

5

5

Receiver termination time constantb,e,f

ps

150 max

100 max

Barracuda ES.2 SAS Product Manual, Rev. E

65

Page 68 Page 70
Page 69
Image 69
Seagate ST31000640SS manual Receiver jitter tolerance, Compliant jitter test pattern Cjtpat, Impedance specifications
Page 68 Page 70

ST31000640SS, ST3500620SS, ST3750630SS specifications

Seagate has been a leading name in the storage industry for decades, and its range of enterprise-class hard drives showcases advanced technologies and robust performance. The Seagate ST3750630SS, ST3500620SS, and ST31000640SS are three notable models that cater to the demands of data centers and enterprises. Each model is designed with specific features that enhance reliability and efficiency, making them suitable for various applications.

The Seagate ST3750630SS is a 750GB 15K RPM Serial Attached SCSI (SAS) drive. It boasts a high-performance architecture that allows for fast data transfer rates, making it ideal for high-load environments such as transaction processing and video streaming. This drive features an MTBF of 1.6 million hours, ensuring minimal downtime due to failures. It also employs advanced error recovery and data protection mechanisms, including error correction codes (ECC), to maintain data integrity.

Meanwhile, the ST3500620SS offers a capacity of 500GB with a spinning speed of 15K RPM as well. This drive utilizes the SAS interface, providing users with improved bandwidth and connectivity compared to traditional SATA drives. The ST3500620SS is designed with a focus on high availability, featuring a robust design that supports multiple workloads simultaneously. Its quick access times enhance overall system performance, making it a preferred choice for high-performance computing applications.

The ST31000640SS is another enterprise-class offering, delivering 1TB of storage capacity. Like its counterparts, this drive operates at 15K RPM and utilizes the SAS interface, facilitating fast data processing and retrieval. It also incorporates a dual-port design which allows for redundancy and failover capabilities. This feature is critical in enterprise environments where data access and uptime are paramount. The drive's design is optimized for durability and longevity, best suited for environments that require 24/7 operation.

All three Seagate drives feature advanced technologies such as dual-stage actuators and thermal write technology, ensuring improved read and write performance, along with reduced power consumption. Additionally, they are built to endure the rigors of enterprise workloads, including heavy I/O operations and high access demands.

In summary, the Seagate ST3750630SS, ST3500620SS, and ST31000640SS are exemplary models that reflect the company’s commitment to quality and performance in enterprise storage solutions. With their high speeds, reliability, and extensive features, these drives are well-equipped to meet the challenges of modern data-driven environments.