MCIMX6S7CVM08AB Freescale Semiconductor, MCIMX6S7CVM08AB Datasheet - Page 32
MCIMX6S7CVM08AB
Manufacturer Part Number
MCIMX6S7CVM08AB
Description
Processors - Application Specialized i.MX6 Solo rev 1.1
Manufacturer
Freescale Semiconductor
Type
Multimedia Applicationsr
Datasheet
1.MCIMX6L3DVN10AA.pdf
(115 pages)
Specifications of MCIMX6S7CVM08AB
Rohs
yes
Core
ARM Cortex A9
Processor Series
i.MX6
Data Bus Width
32 bit
Maximum Clock Frequency
800 MHz
Data Ram Size
128 KB
Maximum Operating Temperature
+ 105
Mounting Style
SMD/SMT
Package / Case
MAPBGA-624
Interface Type
I2C, I2S, UART, USB
Memory Type
L1/L2 Cache, ROM, SRAM
Minimum Operating Temperature
- 40 C
Number Of Timers
2
Available stocks
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Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MCIMX6S7CVM08AB
Manufacturer:
Freescale Semiconductor
Quantity:
10 000
Electrical Characteristics
4.6
This section includes the DC parameters of the following I/O types:
32
consumption
Bias resistor
Parameter
•
•
•
Current
Cload
Fosc
ESR
Dual Voltage General Ppurpose I/O cell set (DVGPIO)
Single Voltage General Purpose I/O cell set (GPIO)
Double Data Rate I/O (DDR) for LPDDR2 and DDR3 modes
I/O DC Parameters
The term ‘OVDD’ in this section refers to the associated supply rail of an
input or output.
Min
i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1
32.768 kHz
Table 20. OSC32K Main Characteristics
14 MΩ
50 kΩ
10 pF
4 μA
Typ
Target Crystal Properties
NOTE
Max
This frequency is nominal and determined mainly by
the crystal selected. 32.0 K would work as well.
The typical value shown is only for the oscillator,
driven by an external crystal. If the internal ring
oscillator is used instead of an external crystal, then
approximately 25 μA should be added to this value.
This the integrated bias resistor that sets the amplifier
into a high gain state. Any leakage through the ESD
network, external board leakage, or even a scope
probe that is significant relative to this value will
debias the amp. The debiasing will result in low gain,
and will impact the circuit's ability to start up and
maintain oscillations.
Usually crystals can be purchased tuned for different
Cloads. This Cload value is typically 1/2 of the
capacitances realized on the PCB on either side of
the quartz. A higher Cload will decrease oscillation
margin, but increases current oscillating through the
crystal.
Equivalent series resistance of the crystal. Choosing
a crystal with a higher value will decrease the
oscillating margin.
Comments
Freescale Semiconductor
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