công cụ tìm kiếm bảng dữ liệu linh kiện điện tử
  Vietnamese  ▼
ALLDATASHEET.VN

X  

MC145050DW bảng dữ liệu(PDF) 7 Page - LANSDALE Semiconductor Inc.

tên linh kiện MC145050DW
Giải thích chi tiết về linh kiện  10-Bit A/D Converter with Serial Interface
Download  15 Pages
Scroll/Zoom Zoom In 100%  Zoom Out
nhà sản xuất  LANSDALE [LANSDALE Semiconductor Inc.]
Trang chủ  http://www.lansdale.com
Logo LANSDALE - LANSDALE Semiconductor Inc.

MC145050DW bảng dữ liệu(HTML) 7 Page - LANSDALE Semiconductor Inc.

Back Button MC145050DW Datasheet HTML 3Page - LANSDALE Semiconductor Inc. MC145050DW Datasheet HTML 4Page - LANSDALE Semiconductor Inc. MC145050DW Datasheet HTML 5Page - LANSDALE Semiconductor Inc. MC145050DW Datasheet HTML 6Page - LANSDALE Semiconductor Inc. MC145050DW Datasheet HTML 7Page - LANSDALE Semiconductor Inc. MC145050DW Datasheet HTML 8Page - LANSDALE Semiconductor Inc. MC145050DW Datasheet HTML 9Page - LANSDALE Semiconductor Inc. MC145050DW Datasheet HTML 10Page - LANSDALE Semiconductor Inc. MC145050DW Datasheet HTML 11Page - LANSDALE Semiconductor Inc. Next Button
Zoom Inzoom in Zoom Outzoom out
 7 / 15 page
background image
www.lansdale.com
Page 7 of 15
LANSDALE Semiconductor, Inc.
ML145050, ML145051
four rising edges of SCLK, and the previous 10-bit conversion
result is shifted out on the first nine falling edges of SCLK.
After the fourth rising edge of SCLK, the new mux address is
available; therefore, on the next edge of SCLK (the fourth
falling edge), the analog input voltage on the selected mux
input begins charging the RC DAC and continues to do so until
the tenth falling edge of SCLK. After this tenth SCLK edge,
the analog input voltage is disabled from the RC DAC and the
RC DAC begins the “hold” portion of the A/D conversion
sequence. Also upon this tenth SCLK edge, control of the
internal circuitry is transferred to ADCLK which drives the
successive approximation logic to complete the conversion. If
16 SCLK cycles are used during each transfer, then there is a
constraint on the minimum SCLK frequency. Specifically,
there must be at least one rising edge on SCLK before the A/D
conversion is complete. If the SCLK frequency is too low and
a rising edge does not occur during the conversion, the chip is
thrown out of sync with the processor and CS needs to be tog-
gled in order to restore proper operation. If 10 SCLKs are used
per transfer, then there is no lower frequency limit on SCLK.
Also note that if the ADC is operated such that CS is inactive
high between transfers, then the number of SCLK cycles per
transfer can be anything between 10 and 16 cycles, but the
“rising edge” constraint is still in effect if more than 10
SCLKs are used. (If CS stays active low for multiple transfers,
the number of SCLK cycles must be either 10 or 16.)
ADCLK
A/D Conversion Clock Input (Pin 19, ML145050 Only)
This pin clocks the dynamic A/D conversion sequence, and
may be asynchronous to SCLK. Control of the chip passes to
ADCLK after the tenth falling edge of SCLK. Control of the
chip is passed back to SCLK after the successive approxima-
tion conversion sequence is complete (44 ADCLK cycles), or
after a valid chip select is recognized. ADCLK also drives the
CS recognition logic. The chip ignores transitions on CS unless
the state remains for a setup time plus two falling edges of
ADCLK. The source driving ADCLK must be free running.
EOC
End-of-Conversion Output (Pin 19, ML145051 Only)
EOC goes low on the tenth falling edge of SCLK. A low-to-
high transition on EOC occurs when the A/D conversion is
complete and the data is ready for transfer.
ANALOG INPUTS AND TEST MODE
AN0 through AN10
Analog Multiplexer Inputs (Pins 1 – 9, 11, 12)
The input AN0 is addressed by loading $0 into the mux ad-
dress register. AN1 is addressed by $1, AN2 by $2, 0, AN10 by
$A. Table 2 shows the input format for a 16-bit stream. The
mux features a break-before-make switching structure to mini-
mize noise injection into the analog inputs. The source resist-
ance driving these inputs must be
≤1 kΩ.
During normal operation, leakage currents through the ana-
log mux from unselected channels to a selected channel and
leakage currents through the ESD protection diodes on the
selected channel occur. These leakage currents cause an offset
voltage to appear across any series source resistance on the
selected channel. Therefore, any source resistance greater than
1 k
Ω (Lansdale test condition) may induce errors in excess of
guaranteed specifications.
There are three tests available that verify the functionality of
all the control logic as well as the successive approximation
comparator. These tests are performed by addressing $B, $C,
or $D and they convert a voltage of (Vref + VAG)/2,VAG, or
Vref, respectively. The voltages are obtained internally by sam-
pling Vref or VAG
DAC during the sample phase. Addressing $B, $C, or $D pro-
duces an output of $200 (half scale), $000, or $3FF (full
scale), respectively, if the converter is functioning properly.
However, deviation from these values occurs in the presence of
sufficient system noise (external to the chip) on VDD, VSS,
Vref, or VAG.
POWER AND REFERENCE PINS
VSS and VDD
Device Supply Pins (Pins 10 and 20)
VSS is normally connected to digital ground; VDD is con-
nected to a positive digital supply voltage. Low frequency
(VDD – VSS) variations over the range of 4.5 to 5.5 volts do
not affect the A/D accuracy. (See the Operations Ranges Table
for restrictions on Vref and VAG relative to VDD and VSS.)
Excessive inductance in the VDD or VSS lines, as on automat-
ic test equipment, may cause A/D offsets > ± 1 LSB. Use of a
0.1
µF bypass capacitor across these pins is recommended.
VAG and Vref
Analog Reference Voltage Pins (Pins 13 and 14)
Analog reference voltage pins which determine the lower
and upper boundary of the A/D conversion. Analog input volt-
ages
≤ Vref produce a full scale output and input voltages ≤
VAG produce an output of zero. CAUTION: The analog input
voltage must be
≥ VSS and ≤ VDD. The A/D conversion result
is ratio metric to Vref – VAG. Vref and VAG must be as noise-
free as possible to avoid degradation of the A/D conversion.
Ideally, Vref and VAG should be single-point connected to the
voltage supply driving the system's transducers. Use of a 0.22
µF bypass capacitor across these pins is strongly urged.
onto the appropriate elements of the RC
Issue B


Số phần tương tự - MC145050DW

nhà sản xuấttên linh kiệnbảng dữ liệuGiải thích chi tiết về linh kiện
logo
LANSDALE Semiconductor ...
MC145050DW LANSDALE-MC145050DW Datasheet
6Mb / 15P
   10-Bit A/D Converter with Serial Interface - CMOS
More results

Mô tả tương tự - MC145050DW

nhà sản xuấttên linh kiệnbảng dữ liệuGiải thích chi tiết về linh kiện
logo
LANSDALE Semiconductor ...
ML145053 LANSDALE-ML145053_08 Datasheet
213Kb / 15P
   10-Bit A/D Converter With Serial Interface
logo
Motorola, Inc
MC145050 MOTOROLA-MC145050 Datasheet
184Kb / 15P
   10-Bit A/D Converter with Serial Interface
logo
LANSDALE Semiconductor ...
ML145053 LANSDALE-ML145053 Datasheet
805Kb / 15P
   10-Bit A/D Converter With Serial Interface CMOS
ML145050 LANSDALE-ML145050 Datasheet
6Mb / 15P
   10-Bit A/D Converter with Serial Interface - CMOS
logo
Microchip Technology
MCP3001 MICROCHIP-MCP3001_07 Datasheet
453Kb / 28P
   2.7V 10 BIT A/D CONVERTER WITH SPI SERIAL INTERFACE
2007
MCP3001 MICROCHIP-MCP3001 Datasheet
597Kb / 28P
   2.7V 10 BIT A/D CONVERTER WITH SPI SERIAL INTERFACE
2001
logo
Motorola, Inc
MC145053 MOTOROLA-MC145053 Datasheet
169Kb / 15P
   10-Bit A/D Concerter with Serial Interface
logo
Texas Instruments
UCC5950D TI-UCC5950D Datasheet
171Kb / 5P
[Old version datasheet]   10-Bit Serial D/A Converter
UCC5950 TI-UCC5950 Datasheet
206Kb / 5P
[Old version datasheet]   10-Bit Serial D/A Converter
logo
Microchip Technology
MCP3002 MICROCHIP-MCP3002_08 Datasheet
585Kb / 34P
   2.7V Dual Channel 10-Bit A/D Converter with SPI Serial Interface
2008
More results


Html Pages

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15


bảng dữ liệu tải về

Go To PDF Page


Link URL




Chính sách bảo mật
ALLDATASHEET.VN
Cho đến nay ALLDATASHEET có giúp ích cho doanh nghiệp của bạn hay không?  [ DONATE ] 

Alldatasheet là   |   Quảng cáo   |   Liên lạc với chúng tôi   |   Chính sách bảo mật   |   Trao đổi link   |   Tìm kiếm theo nhà sản xuất
All Rights Reserved©Alldatasheet.com


Mirror Sites
English : Alldatasheet.com  |   English : Alldatasheet.net  |   Chinese : Alldatasheetcn.com  |   German : Alldatasheetde.com  |   Japanese : Alldatasheet.jp
Russian : Alldatasheetru.com  |   Korean : Alldatasheet.co.kr  |   Spanish : Alldatasheet.es  |   French : Alldatasheet.fr  |   Italian : Alldatasheetit.com
Portuguese : Alldatasheetpt.com  |   Polish : Alldatasheet.pl  |   Vietnamese : Alldatasheet.vn
Indian : Alldatasheet.in  |   Mexican : Alldatasheet.com.mx  |   British : Alldatasheet.co.uk  |   New Zealand : Alldatasheet.co.nz
Family Site : ic2ic.com  |   icmetro.com