Shock And Vibration; Reliability Specifications; Annual Return Rate; Quality Acceptance Rate - Maxtor DIAMONDMAX PLUS 40 51024U2 Manual

PRODUCT SPECIFICATIONS

Shock and Vibration

Shock and Vibration
Shock and Vibration Shock and Vibration Shock and Vibration
P A R A M E T E R
M e h c n a c i l a S h o k c
R t o t a o i n l a S h o k c
R n a d o m i V r b t a o i n
S w e t p S n i e i V r b t a o i n
0 1 - 3 0 0 H z

Reliability Specifications

Reliability Specifications
Reliability Specifications Reliability Specifications Reliability Specifications

Annual Return Rate

Annual Return Rate Annual Return Rate Annual Return Rate Annual Return Rate
< 1.0%

Quality Acceptance Rate

Quality Acceptance Rate Quality Acceptance Rate Quality Acceptance Rate Quality Acceptance Rate
< 1,000 DPPM

Start/Stop Cycles

Start/Stop Cycles Start/Stop Cycles Start/Stop Cycles Start/Stop Cycles
50,000

Data Reliability

Data Reliability Data Reliability Data Reliability Data Reliability
15
< 10 per 10 bits read

Component Design Life

Component Design Life Component Design Life Component Design Life Component Design Life
5 years (minimum)
3 – 4
O P E R A T N I G
6 0 G , s 2 0 . m , s n o r e o r s r
2
0 1 - 4 5 H z t a 0 0 . 0 4 G H / z
4 8 - 6 2 H z t a 0 0 . 0 8 G 2 H / z
2
6 5 - 3 0 0 H z t a 0 0 . 0 4 G H / z
2
3 1 0 - 5 0 0 H z t a 0 0 . 0 0 6 G H / z
n o r e o r s r
1 0 . G 0 ( - p a e ) k a m i l p u t d e
Annual Return Rate (ARR) indicates the average against products shipped.
ARR includes all reasons for returns (failures, handling damage, NDF), but
does not include inventory credit returns.
The quality acceptance rate indicates the percentage of Maxtor products
successfully installed by our customers, and/or the number of defective parts
per million (DPPM) encountered during the entire installation process.
This indicates the average minimum cycles for reliable start/stop function.
Data errors (non-recoverable). Average data error rate allowed with all error
recovery features activated.
Component design life is defined as a.) the time period before identified
wear-out mechanisms impact the failure rate, or b.) the time period up to the
wear-out point when useful component life expires.
N O N - O P E R A T N I G
2 5 0 G , s 2 0 . m , s n o a d m g a e
2 0 0 , 0 0 R d a s / c e 0 , 5 . - 1 0 . m , s n o a d
2
0 1 H z t a 0 0 . 5 G H / z
2 0 H z t a 0 0 . 5 5 G 2 H / z
2
3 0 0 H z t a 0 0 . 5 G H / z
2
3 1 0 H z t a 0 0 . 0 4 1 G H / z
5 0 0 - 6 7 0 H z t a 0 0 . 1 0 G 2 H / z
2
8 7 7 H z t a 0 0 . 0 3 G H / z
2
0 1 0 0 - 5 1 7 0 H z t a 0 0 . 1 0 G H / z
2 0 0 0 H z t a 0 0 . 1 0 G 2 H / z
m g a e