參數(shù)資料
型號: ADSP-21062LKB-160
廠商: ANALOG DEVICES INC
元件分類: 數(shù)字信號處理
英文描述: ADSP-2106x SHARC DSP Microcomputer Family
中文描述: 48-BIT, 40 MHz, OTHER DSP, PBGA225
封裝: PLASTIC, MS-034AAJ-2, BGA-225
文件頁數(shù): 40/48頁
文件大小: 370K
代理商: ADSP-21062LKB-160
–40–
ADSP-21062/ADSP-21062L
REV. C
OUTPUT DRIVE CURRENTS
Figure 28 shows typical I-V characteristics for the output drivers
of the ADSP-21062. The curves represent the current drive
capability of the output drivers as a function of output voltage.
POWER DISSIPATION
Total power dissipation has two components, one due to inter-
nal circuitry and one due to the switching of external output
drivers. Internal power dissipation is dependent on the instruc-
tion execution sequence and the data operands involved. Inter-
nal power dissipation is calculated in the following way:
P
INT
= I
DDIN
×
V
DD
The external component of total power dissipation is caused by
the switching of output pins. Its magnitude depends on:
– the number of output pins that switch during each cycle (O)
– the maximum frequency at which they can switch (f)
– their load capacitance (C)
– their voltage swing (V
DD
)
and is calculated by:
P
EXT
= O
×
C
×
V
DD
2
×
f
The load capacitance should include the processor’s package
capacitance (C
IN
). The switching frequency includes driving the
load high and then back low. Address and data pins can drive
high and low at a maximum rate of 1/(2t
CK
). The write strobe
can switch every cycle at a frequency of 1/t
CK
. Select pins switch
at 1/(2t
CK
), but selects can switch on each cycle.
Example:
Estimate P
EXT
with the following assumptions:
–A system with one bank of external data memory RAM (32-bit)
–Four 128K
×
8 RAM chips are used, each with a load of 10 pF
–External data memory writes occur every other cycle, a rate
of 1/(4t
CK
), with 50% of the pins switching
–The instruction cycle rate is 40 MHz (t
CK
= 25 ns).
The P
EXT
equation is calculated for each class of pins that can
drive:
Table II. External Power Calculations (5 V Device)
Pin
Type
# of
Pins
%
Switching
C
f
V
DD2
= P
EXT
Address
MS0
WR
Data
ADDRCLK
15
1
1
32
1
50
0
50
×
44.7 pF
×
10 MHz
×
44.7 pF
×
10 MHz
×
44.7 pF
×
20 MHz
×
14.7 pF
×
10 MHz
×
4.7 pF
×
25 V
×
25 V
×
25 V
×
25 V
×
25 V
= 0.084 W
= 0.000 W
= 0.022 W
= 0.059 W
= 0.002 W
×
20 MHz
P
EXT
= 0.167 W
Table III. External Power Calculations (3.3 V Device)
Pin
Type
# of
Pins
%
Switching
C
f
V
DD2
= P
EXT
Address
MS0
WR
Data
ADDRCLK
15
1
1
32
1
50
0
50
×
44.7 pF
×
10 MHz
×
10.9 V = 0.037 W
×
44.7 pF
×
10 MHz
×
10.9 V = 0.000 W
×
44.7 pF
×
20 MHz
×
10.9 V = 0.010 W
×
14.7 pF
×
10 MHz
×
10.9 V = 0.026 W
×
4.7 pF
×
20 MHz
×
10.9 V = 0.001 W
P
EXT
= 0.074 W
A typical power consumption can now be calculated for these
conditions by adding a typical internal power dissipation:
P
TOTAL
= P
EXT
+
(
I
DDIN2
×
5.0
V
)
Note that the conditions causing a worst-case P
EXT
are different
from those causing a worst-case P
INT
. Maximum P
INT
cannot
occur while 100% of the output pins are switching from all ones
to all zeros. Note also that it is not common for an application to
have 100% or even 50% of the outputs switching simultaneously.
TEST CONDITIONS
Output Disable Time
Output pins are considered to be disabled when they stop driv-
ing, go into a high impedance state, and start to decay from
their output high or low voltage. The time for the voltage on the
bus to decay by
V is dependent on the capacitive load, C
L
and
the load current, I
L
. This decay time can be approximated by
the following equation:
t
DECAY
=
C
L
V
I
L
The output disable time t
DIS
is the difference between t
MEASURED
and t
DECAY
as shown in Figure 25. The time t
MEASURED
is the
interval from when the reference signal switches to when the
output voltage decays
V from the measured output high or
output low voltage. t
DECAY
is calculated with test loads C
L
and
I
L
, and with
V equal to 0.5 V.
Output Enable Time
Output pins are considered to be enabled when they have made
a transition from a high impedance state to when they start
driving. The output enable time t
ENA
is the interval from when a
reference signal reaches a high or low voltage level to when the
output has reached a specified high or low trip point, as shown
in the Output Enable/Disable diagram (Figure 25). If multiple
pins (such as the data bus) are enabled, the measurement value
is that of the first pin to start driving.
相關(guān)PDF資料
PDF描述
ADSP-21065LCCA-240 DSP Microcomputer
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ADSP-21065LCS-240 DSP Microcomputer
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相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
ADSP-21062LKBZ-160 功能描述:IC DSP CONTROLLER 2MBIT 225 BGA RoHS:是 類別:集成電路 (IC) >> 嵌入式 - DSP(數(shù)字式信號處理器) 系列:SHARC® 標(biāo)準(zhǔn)包裝:2 系列:StarCore 類型:SC140 內(nèi)核 接口:DSI,以太網(wǎng),RS-232 時鐘速率:400MHz 非易失內(nèi)存:外部 芯片上RAM:1.436MB 電壓 - 輸入/輸出:3.30V 電壓 - 核心:1.20V 工作溫度:-40°C ~ 105°C 安裝類型:表面貼裝 封裝/外殼:431-BFBGA,F(xiàn)CBGA 供應(yīng)商設(shè)備封裝:431-FCPBGA(20x20) 包裝:托盤
ADSP-21062LKS-133 制造商:Analog Devices 功能描述:DSP Floating-Point 32-Bit 33MHz 33MIPS 240-Pin MQFP 制造商:Rochester Electronics LLC 功能描述:ADSP-21062L 3.3V 33MHZ - Bulk
ADSP-21062LKS-160 功能描述:IC DSP CONTROLLER 2MBIT 240MQFP RoHS:否 類別:集成電路 (IC) >> 嵌入式 - DSP(數(shù)字式信號處理器) 系列:SHARC® 標(biāo)準(zhǔn)包裝:2 系列:StarCore 類型:SC140 內(nèi)核 接口:DSI,以太網(wǎng),RS-232 時鐘速率:400MHz 非易失內(nèi)存:外部 芯片上RAM:1.436MB 電壓 - 輸入/輸出:3.30V 電壓 - 核心:1.20V 工作溫度:-40°C ~ 105°C 安裝類型:表面貼裝 封裝/外殼:431-BFBGA,F(xiàn)CBGA 供應(yīng)商設(shè)備封裝:431-FCPBGA(20x20) 包裝:托盤
ADSP-21062LKSZ-133 功能描述:IC DSP CONTROLLER 32BIT 240MQFP RoHS:是 類別:集成電路 (IC) >> 嵌入式 - DSP(數(shù)字式信號處理器) 系列:SHARC® 標(biāo)準(zhǔn)包裝:2 系列:StarCore 類型:SC140 內(nèi)核 接口:DSI,以太網(wǎng),RS-232 時鐘速率:400MHz 非易失內(nèi)存:外部 芯片上RAM:1.436MB 電壓 - 輸入/輸出:3.30V 電壓 - 核心:1.20V 工作溫度:-40°C ~ 105°C 安裝類型:表面貼裝 封裝/外殼:431-BFBGA,F(xiàn)CBGA 供應(yīng)商設(shè)備封裝:431-FCPBGA(20x20) 包裝:托盤
ADSP-21062LKSZ-160 功能描述:IC DSP CONTROLLER 2MBIT 240MQFP RoHS:是 類別:集成電路 (IC) >> 嵌入式 - DSP(數(shù)字式信號處理器) 系列:SHARC® 標(biāo)準(zhǔn)包裝:2 系列:StarCore 類型:SC140 內(nèi)核 接口:DSI,以太網(wǎng),RS-232 時鐘速率:400MHz 非易失內(nèi)存:外部 芯片上RAM:1.436MB 電壓 - 輸入/輸出:3.30V 電壓 - 核心:1.20V 工作溫度:-40°C ~ 105°C 安裝類型:表面貼裝 封裝/外殼:431-BFBGA,F(xiàn)CBGA 供應(yīng)商設(shè)備封裝:431-FCPBGA(20x20) 包裝:托盤
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