- 您現(xiàn)在的位置:買賣IC網(wǎng) > PDF目錄363839 > OR3T125-4PS208I 1.8V LOW COST OP AMP, -40C to +85C, 5-SOT-23, T/R PDF資料下載
參數(shù)資料
| 型號: | OR3T125-4PS208I |
| 英文描述: | 1.8V LOW COST OP AMP, -40C to +85C, 5-SOT-23, T/R |
| 中文描述: | 現(xiàn)場可編程門陣列(FPGA) |
| 文件頁數(shù): | 147/210頁 |
| 文件大小: | 4663K |
| 代理商: | OR3T125-4PS208I |
第1頁第2頁第3頁第4頁第5頁第6頁第7頁第8頁第9頁第10頁第11頁第12頁第13頁第14頁第15頁第16頁第17頁第18頁第19頁第20頁第21頁第22頁第23頁第24頁第25頁第26頁第27頁第28頁第29頁第30頁第31頁第32頁第33頁第34頁第35頁第36頁第37頁第38頁第39頁第40頁第41頁第42頁第43頁第44頁第45頁第46頁第47頁第48頁第49頁第50頁第51頁第52頁第53頁第54頁第55頁第56頁第57頁第58頁第59頁第60頁第61頁第62頁第63頁第64頁第65頁第66頁第67頁第68頁第69頁第70頁第71頁第72頁第73頁第74頁第75頁第76頁第77頁第78頁第79頁第80頁第81頁第82頁第83頁第84頁第85頁第86頁第87頁第88頁第89頁第90頁第91頁第92頁第93頁第94頁第95頁第96頁第97頁第98頁第99頁第100頁第101頁第102頁第103頁第104頁第105頁第106頁第107頁第108頁第109頁第110頁第111頁第112頁第113頁第114頁第115頁第116頁第117頁第118頁第119頁第120頁第121頁第122頁第123頁第124頁第125頁第126頁第127頁第128頁第129頁第130頁第131頁第132頁第133頁第134頁第135頁第136頁第137頁第138頁第139頁第140頁第141頁第142頁第143頁第144頁第145頁第146頁當(dāng)前第147頁第148頁第149頁第150頁第151頁第152頁第153頁第154頁第155頁第156頁第157頁第158頁第159頁第160頁第161頁第162頁第163頁第164頁第165頁第166頁第167頁第168頁第169頁第170頁第171頁第172頁第173頁第174頁第175頁第176頁第177頁第178頁第179頁第180頁第181頁第182頁第183頁第184頁第185頁第186頁第187頁第188頁第189頁第190頁第191頁第192頁第193頁第194頁第195頁第196頁第197頁第198頁第199頁第200頁第201頁第202頁第203頁第204頁第205頁第206頁第207頁第208頁第209頁第210頁
Lucent Technologies Inc.
147
Data Sheet
June 1999
ORCA Series 3C and 3T FPGAs
Estimating Power Dissipation
(continued)
OR3Txxx (Preliminary Information)
The total operating power dissipated is estimated by
summing the standby (I
DDSB
), internal, and external
power dissipated. The internal and external power is
the power consumed in the PLCs and PICs, respec-
tively. In general, the standby power is small and may
be neglected. The total operating power is as follows:
P
T
=
Σ
P
PLC
+
Σ
P
PIC
The internal operating power is made up of two parts:
clock generation and PFU output power. The PFU out-
put power can be estimated based upon the number of
PFU outputs switching when driving an average fan-out
of two:
P
PFU
= 0.068 mW/MHz
For each PFU output that switches, 0.068 mW/MHz
needs to be multiplied times the frequency (in MHz)
that the output switches. Generally, this can be esti-
mated by using one-half the clock rate, multiplied by
some activity factor; for example, 20%.
The power dissipated by the clock generation circuitry
is based upon four parts: the fixed clock power, the
power/clock branch row or column, the clock power dis-
sipated in each PFU that uses this particular clock, and
the power from the subset of those PFUs configured as
synchronous memory. Therefore, the clock power can
be calculated for the four parts using the following
equations.
OR3T20 Clock Power
P
= [0.38 mW/MHz
+ (0.045 mW/MHz/Branch) (# Branches)
+ (0.015 mW/MHz/PFU) (# PFUs)
+ (0.004 mW/MHz/PIO (# PIOs)]
For a quick estimate, the worst-case (typical circuit)
OR3T20 clock power
≈
2.92 mW/MHz.
OR3T30 Clock Power
P
= [0.53 mW/MHz
+ (0.061 mW/MHz/Branch) (# Branches)
+ (0.015 mW/MHz/PFU) (# PFUs)
+ (0.004 mW/MHz/PIO (# PIOs)]
For a quick estimate, the worst-case (typical circuit)
OR3T30 clock power
≈
3.98 mW/MHz.
OR3T55 Clock Power
P
= [0.88 mW/MHz
+ (0.102 mW/MHz/Branch) (# Branches)
+ (0.015 mW/MHz/PFU) (# PFUs)
+ (0.004 mW/MHz/PIO (# PIOs)]
For a quick estimate, the worst-case (typical circuit)
OR3T55 clock power
≈
6.58 mW/MHz.
OR3T80 Clock Power
P
= [0.107 mW/MHz
+ (0.124 mW/MHz/Branch) (# Branches)
+ (0.015 mW/MHz/PFU) (# PFUs)
+ (0.004 mW/MHz/PIO (# PIOs)]
For a quick estimate, the worst-case (typical circuit)
OR3T80 clock power
≈
9.47 mW/MHz.
OR3T125 Clock Power
P
= [0.167 mW/MHz
+ (0.193 mW/MHz/Branch) (# Branches)
+ (0.015 mW/MHz/PFU) (# PFUs)
+ (0.004 mW/MHz/PIO (# PIOs)]
For a quick estimate, the worst-case (typical circuit)
OR3T125 clock power
≈
15.44 mW/MHz.
The power dissipated in a PIC is the sum of the power
dissipated in the four PIOs in the PIC. This consists of
power dissipated by inputs and ac power dissipated by
outputs. The power dissipated in each PIO depends on
whether it is configured as an input, output, or input/
output. If a PIO is operating as an output, then there is
a power dissipation component for P
IN
, as well as
P
OUT
. This is because the output feeds back to the
input.
The power dissipated by an input buffer (V
IH
= V
DD
–
0.3 V or higher) is estimated as:
P
IN
= 0.09 mW/MHz
The ac power dissipation from an output or bidirec-
tional is estimated by the following:
P
OUT
= (C
L
+ 8.8 pF) x V
DD
2
x F Watts
where the unit for C
L
is farads, and the unit for F is Hz.
相關(guān)PDF資料 |
PDF描述 |
|---|---|
| OR3T125-4PS240I | Field Programmable Gate Array (FPGA) |
| OR3T125-5BC432I | Field Programmable Gate Array (FPGA) |
| OR3T125-5BC600I | Dual 1.8V, 1MHz OP, -40C to +125C, 8-PDIP, TUBE |
| OR3T125-5PS208I | Dual 1.8V, 1MHz OP, I temp, -40C to +85C, 8-MSOP, TUBE |
| OR3T125-5PS240I | Dual 1.8V, 1MHz OP, I temp, -40C to +85C, 8-PDIP, TUBE |
相關(guān)代理商/技術(shù)參數(shù) |
參數(shù)描述 |
|---|---|
| OR3T125-4PS240I | 制造商:未知廠家 制造商全稱:未知廠家 功能描述:Field Programmable Gate Array (FPGA) |
| OR3T125-5BA352 | 制造商:AGERE 制造商全稱:AGERE 功能描述:3C and 3T Field-Programmable Gate Arrays |
| OR3T125-5BA352I | 制造商:AGERE 制造商全稱:AGERE 功能描述:3C and 3T Field-Programmable Gate Arrays |
| OR3T125-5BC432 | 制造商:AGERE 制造商全稱:AGERE 功能描述:3C and 3T Field-Programmable Gate Arrays |
| OR3T125-5BC432I | 制造商:AGERE 制造商全稱:AGERE 功能描述:3C and 3T Field-Programmable Gate Arrays |
發(fā)布緊急采購,3分鐘左右您將得到回復(fù)。