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參數資料
| 型號: | BU-61864G3-170 |
| 廠商: | DATA DEVICE CORP |
| 元件分類: | 微控制器/微處理器 |
| 英文描述: | 2 CHANNEL(S), 1M bps, MIL-STD-1553 CONTROLLER, CQFP72 |
| 封裝: | 25.40 X 25.40 MM, 2.54 MM HEIGHT, CERAMIC, QFP-72 |
| 文件頁數: | 44/60頁 |
| 文件大小: | 457K |
| 代理商: | BU-61864G3-170 |
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49
Data Device Corporation
www.ddc-web.com
BU-6174X/6184X/6186X
F-10/02-300
TRANSPARENT
/BUFFERED
55
Used to select between the buffered mode (when strapped to logic “0”) and transparent/DMA
mode (when strapped to logic "1") for the host processor interface.
B17
IOEN(O)
58
I/O Enable. Tri-state control for external address and data buffers. Generally not used in
buffered mode. When low, indicates that the Enhanced Mini-ACE is currently performing a host
access to an internal register, or internal or (for transparent mode) external RAM. In transparent
mode, IOEN (low) should be used to enable external address and data bus tri-state buffers.
A17
READYD
56
Handshake output to host processor. For a nonzero wait state read access, READYD is assert-
ed at the end of a host transfer cycle to indicate that data is available to be read on D15
through D0 when asserted (low). For a nonzero wait state write cycle, READYD is asserted at
the end of the cycle to indicate that data has been transferred to a register or RAM location.
For both nonzero wait reads and writes, the host must assert STRBD low until READYD is
asserted low.
In the (buffered) zero wait state mode, this output is normally logic "1", indicating that the Enhanced
Mini-ACE/-ACE is in a state ready to accept a subsequent host transfer cycle. In zero wait mode,
READYD will transition from high to low during (or just after) a host transfer cycle, when the
Enhanced Mini-ACE/-ACE initiates its internal transfer to or from registers or internal RAM. When
the Enhanced Mini-ACE/-ACE completes its internal transfer, READYD returns to logic "1", indicat-
ing it is ready for the host to initiate a subsequent transfer cycle.
B15
TABLE 51. PROCESSOR INTERFACE CONTROL (CONT.)
SIGNAL NAME
DESCRIPTION
BU-6186XFX/GX
BU-6184XFX/GX
BU-6174XFX/GX
BALL
PIN
BU-61860BX
BU-61840BX
BU-61740BX
RTAD4 (MSB) (I)
35
RT Address inputs. If bit 5 of Configuration Register #6, RT ADDRESS SOURCE, is pro-
grammed to logic "0" (default), then the Enhanced Mini-ACE/-ACE's RT address is provided
by means of these 5 input signals. In addition, if RT ADDRESS SOURCE is logic "0", the
source of RT address parity is RTADP.
There are many methods for using these input signals for designating the Enhanced Mini-
ACE/-ACE's RT address. For details, refer to the description of RT_AD_LAT.
If RT ADDRESS SOURCE is programmed to logic "1", then the Enhanced Mini-ACE/-ACE's
source for its RT address and parity is under software control, via data lines D5-D0. In this
case, the RTAD4-RTAD0 and RTADP signals are not used.
T17
RTAD3 (I)
34
U18
RTAD2 (I)
21
U17
RTAD1 (I)
41
V18
RTAD0 (LSB) (I)
33
V17
RT_AD_LAT (I)
31
RT Address Latch. Input signal used to control the Enhanced MINI-ACE/-ACE's internal RT
address latch. If RT_AD_LAT is connected to logic "0", then the Enhanced Mini-ACE/-ACE RT
is configured to accept a hardwired (transparent) RT address from RTAD4-RTAD) and RTADP.
If RT_AD_LAT is initially logic "0", and then transitions to logic "1", the values presented on
RTAD4-RTAD0 and RTADP will be latched internally on the rising edge of RT_AD_LAT.
If RT_AD_LAT is connected to logic "1", then the Enhanced Mini-ACE/-ACE's RT address is
latchable under host processor control. In this case, there are two possibilities: (1) If bit 5 of
Configuration Register #6, RT ADDRESS SOURCE, is programmed to logic "0" (default), then
the source of the RT Address is the RTAD4-RTAD0 and RTADP input signals; (2) If RT
ADDRESS SOURCE is programmed to logic "1", then the source of the RT Address is the
lower 6 bits of the processor data bus, D5-D1 (for RTAD4-0) and D0 (for RTADP).
In either of these two cases (with RT_AD_LAT = "1"), the processor will cause the RT address
to be latched by: (1) writing bit 15 of Configuration Register #3, ENHANCED MODE, to logic
"1"; (2) writing bit 3 of Configuration Register #4, LATCH RT ADDRESS WITH CONFIGURA-
TION REGISTER #5, to logic "1"; and (3) writing to Configuration Register #5. In the case of
RT ADDRESS SOURCE = "1", then the values of RT address and RT address parity must be
written to the lower 6 bits of Configuration Register #5, via D5-D0. In the case where RT
ADDRESS SOURCE = "0", the bit values presented on D5-D0 become "don't care" .
P18
RTADP
40
Remote Terminal Address Parity. This input signal must provide an odd parity sum with RTAD4-
RTAD0 in order for the RT to respond to non-broadcast commands. That is, there must be an
odd number of logic "1"s from among RTAD-4-RTAD0 and RTADP.
T18
TABLE 52. RT ADDRESS
SIGNAL NAME
DESCRIPTION
BU-6186XFX/GX
BU-6184XFX/GX
BU-6174XFX/GX
BALL
PIN
BU-61860BX
BU-61840BX
BU-61740BX
相關PDF資料 |
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| BU-61864G3-172K | 2 CHANNEL(S), 1M bps, MIL-STD-1553 CONTROLLER, CQFP72 |
| BU-61864G3-172Y | 2 CHANNEL(S), 1M bps, MIL-STD-1553 CONTROLLER, CQFP72 |
| BU-61864G3-180W | 2 CHANNEL(S), 1M bps, MIL-STD-1553 CONTROLLER, CQFP72 |
| BU-61864G3-180Z | 2 CHANNEL(S), 1M bps, MIL-STD-1553 CONTROLLER, CQFP72 |
| BU-61864G3-182Q | 2 CHANNEL(S), 1M bps, MIL-STD-1553 CONTROLLER, CQFP72 |
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