參數(shù)資料
型號(hào): ADSP-2185KST-133
廠商: ANALOG DEVICES INC
元件分類: 數(shù)字信號(hào)處理
英文描述: DSP Microcomputer
中文描述: 24-BIT, 33 MHz, OTHER DSP, PQFP100
封裝: METRIC, PLASTIC, TQFP-100
文件頁(yè)數(shù): 12/31頁(yè)
文件大小: 223K
代理商: ADSP-2185KST-133
REV. A
ADSP-2185L
–12–
DESIGNING AN EZ-ICE-COMPATIBLE SYSTEM
The ADSP-2185L has on-chip emulation support and an ICE-
Port, a special set of pins that interface to the EZ-ICE. These
features allow in-circuit emulation without replacing the target
system processor by using only a 14-pin connection from the
target system to the EZ-ICE. Target systems must have a 14-pin
connector to accept the EZ-ICE’s in-circuit probe, a 14-pin plug.
See the ADSP-2100 Family EZ-Tools data sheet for complete in-
formation on ICE products.
Issuing the chip reset command during emulation causes the
DSP to perform a full chip reset, including a reset of its memory
mode. Therefore, it is vital that the mode pins are set correctly
PRIOR to issuing a chip reset command from the emulator user
interface. If you are using a passive method of maintaining
mode information (as discussed in Setting Memory Modes)
then it does not matter that the mode information is latched by
an emulator reset. However, if you are using the
RESET
pin as
a method of setting the value of the mode pins, then you have to
take into consideration the effects of an emulator reset.
One method of ensuring that the values located on the mode
pins are those desired is to construct a circuit like the one shown
in Figure 9. This circuit forces the value located on the Mode A
pin to logic high; regardless if it latched via the
RESET
or
ERESET
pin.
ERESET
RESET
ADSP-2185L
MODE A/PFO
PROGRAMMABLE I/O
1k
V
Figure 9. Mode A Pin/EZ-ICE Circuit
The ICE-Port interface consists of the following ADSP-2185L
pins:
EBR
EBG
ERESET
EMS
EINT
ECLK
ELIN
ELOUT
EE
These ADSP-2185L pins must be connected
only
to the EZ-ICE
connector in the target system. These pins have no function ex-
cept during emulation, and do not require pull-up or pull-down
resistors. The traces for these signals between the ADSP-2185L
and the connector must be kept as short as possible, no longer
than three inches.
The following pins are also used by the EZ-ICE:
BR
BG
RESET
GND
The EZ-ICE uses the EE (emulator enable) signal to take con-
trol of the ADSP-2185L in the target system. This causes the
processor to use its
ERESET
,
EBR
and
EBG
pins instead of the
RESET
,
BR
and
BG
pins. The
BG
output is three-stated. These
signals do not need to be jumper-isolated in your system.
The EZ-ICE
connects to your target system via a ribbon cable
and a 14-pin female plug. The ribbon cable is 10 inches in
length with one end fixed to the EZ-ICE. The female plug is
plugged onto the 14-pin connector (a pin strip header) on the
target board.
Target Board Connector for EZ-ICE Probe
The EZ-ICE connector (a standard pin strip header) is shown in
Figure 10. You must add this connector to your target board
design if you intend to use the EZ-ICE. Be sure to allow enough
room in your system to fit the EZ-ICE probe onto the 14-pin
connector.
3
9
1
2
3
4
5
6
7
8
10
11
12
13
14
GND
KEY (NO PIN)
RESET
BR
BG
TOP VIEW
EBG
EBR
ELOUT
EE
EINT
ELIN
ECLK
EMS
ERESET
Figure 10. Target Board Connector for EZ-ICE
The 14-pin, 2-row pin strip header is keyed at the Pin 7 loca-
tion—you must remove Pin 7 from the header. The pins must
be 0.025 inch square and at least 0.20 inch in length. Pin spac-
ing should be 0.1
×
0.1 inches. The pin strip header must have
at least 0.15 inch clearance on all sides to accept the EZ-ICE
probe plug.
Pin strip headers are available from vendors such as 3M,
McKenzie and Samtec.
Target Memory Interface
For your target system to be compatible with the EZ-ICE
emu-
lator, it must comply with the memory interface guidelines listed
below.
PM, DM, BM, IOM and CM
Design your Program Memory (PM), Data Memory (DM),
Byte Memory (BM), I/O Memory (IOM) and Composite
Memory (CM) external interfaces to comply with worst case
device timing requirements and switching characteristics as
specified in the DSP’s data sheet. The performance of the
EZ-ICE
may approach published worst case specification for
some memory access timing requirements and switching
characteristics.
Note:
If your target does not meet the worst case chip specifica-
tion for memory access parameters, you may not be able to
emulate your circuitry at the desired CLKIN frequency. De-
pending on the severity of the specification violation, you may
have trouble manufacturing your system as DSP components
statistically vary in switching characteristic and timing require-
ments within published limits.
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