CYNSE10512A-133FGC Cypress Semiconductor Corp, CYNSE10512A-133FGC Datasheet - Page 45
CYNSE10512A-133FGC
Manufacturer Part Number
CYNSE10512A-133FGC
Description
Manufacturer
Cypress Semiconductor Corp
Datasheet
1.CYNSE10512A-133FGC.pdf
(145 pages)
Specifications of CYNSE10512A-133FGC
Operating Supply Voltage (typ)
1.2V
Operating Temp Range
0C to 70C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Lead Free Status / RoHS Status
Not Compliant
Document #: 38-02110 Rev. *B
5.9.2
The following table (Table 5-30) details the parameters expected (in DQ bus) to access the internal registers of the NSE.
Table 5-30. Internal Register Address Space Encoding
5.10
The NSE application can depth-cascade the devices to various table sizes of different widths (72-bit, 144-bit, 288-bit or 576-bit).
The devices perform all the necessary arbitration to decide which device will drive the SRAM bus. Some operations and features
are not cascadable, which means that the operation or feature is on a device-by-device basis and the results are not propagated
to the next device. Table 5-31 lists those operations and features. The following subsections covers the interconnects when the
devices in a cascade operates in the Non-Enhanced mode or Enhanced Mode with MSE set to 0 (MultiSearch disabled). For
device interconnects when operating in Enhanced mode with MultiSearch enabled, please refer to Figure 6-43.
Table 5-31. Cascadability of Operations and Features
5.10.1
Figure 5-32 shows the interconnection of up to eight devices in a cascade to form 2M × 72, 1M × 144, 512K × 288, or 256K x
576 tables. Each NSE asserts the LHO[1] and LHO[0] signals to inform downstream devices of its result. LHI[6:0] signals for a
device are connected to LHO signals of the upstream devices. The host ASIC must program the TLSZ = 01 (binary) for each of
up to eight devices in a block. Only a single device drives the SRAM bus in any single cycle.
Note:
12. Software solutions are possible for these cases. Please refer to specific application notes.
MultiSearch Command
Learn Command
Soft Priority
FULL
MULTI_HIT
INDIRECT
BLKNUM
REGSEL
CHIPID
Operations/# of Devices
RSEL
Field
Addressing the Internal Registers
71
Depth Cascading
Depth Cascading up to Eight Devices in One Block
63
(decimal)
Range
[20:19]
[25:21]
[28:26]
[71:30]
[17:11]
[10:0]
[18]
[29]
55
Figure 5-31. Internal Register Address Space Encoding
Register Address Selected. This field selects which internal register to address.Table 5-
6 lists the registers that are available.
Block Number. This field selects the block within the device that will participate in the
operation. It is only used when accessing block specific internal registers (BMR, BPR,
BPAR, BNFA and BPRA0-3). For other internal register accesses, this field must be set to 0.
Reserved.
Register Area Select. This field indicates in what context the access takes place. It must
be set to “11”.
Device ID. This field indicates which NSE device should respond to the READ or WRITE
operation. CHIPID value “11111” indicates a broadcast operation.
Reserved.
Indirect Addressing Enable. This bit must be cleared to 0.
Reserved.
Yes
Yes
Yes
No
No
CONFIDENTIAL
1
Non-Enhanced
47
Yes
Yes
2-8
No
No
No
39
9-31
No
No
No
No
No
31
Yes
Yes
Yes
Yes
No
1
Enhanced Mode
with MSE = 0
Description
No
CHIPID
Yes
Yes
2-8
No
No
23
[12]
No
No
9-31
No
No
No
[12]
[12]
BLKNUM
15
Yes
Yes
Yes
Yes
Yes
CYNSE10512A
CYNSE10256A
CYNSE10128A
1
Enhanced Mode
with MSE = 1
REGSEL
7
No
No
Yes
2-8
No
No
Page 45 of 145
[12]
[12]
0
No
No
9-31
No
No
No
[12]
[12]
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