HOLTIC HI-6140

HI-6140
10 MBit/s MIL-STD-1553
3.3V BC / MT / RT
January 2013
GENERAL DESCRIPTION
FEATURES
The HI-6140 is a 10 MBit/sec version of Holt’s HI-6130
integrated BC/MT/RT solution. The part is designed for
MIL-STD-1553-derived protocols that use a 10MB/sec
data rate, such as Miniature Munitions Stores Interface
(MMSI) or EBR-1553.
o
o
The part is available in Industrial -40 C to +85 C, or
o
o
Extended -55 C to +125 C temperature ranges. Optional
burn-in is available on the extended temperature range.
Refer to the HI-6130 datasheet for full functional
description and operation.
100 - D11
99 - D10
98 - D9
97 - TXINHB
96 - TXINHA
95 - AUTOEN
94 - D8
93 - D7
92 - D6
91 - VCC
90 - GND
89 - D5
88 - D4
87 - D3
86 - RTSSF
85 - ACTIVE
84 - READY
83 - HRTA2
82 - HRTA4
81 - HRTA3
80 - ACKIRQ
79 - IRQ
78 - VCC
77 - GND
76 - D2
PIN CONFIGURATION (TOP)
VCC - 1
GND - 2
BCTRIG - 3
D12 - 4
D13 - 5
D14 - 6
D15 - 7
RAMEDC - 8
CE - 9
MODE - 10
STR / OE - 11
VCC - 12
MCLK - 13
GND - 14
WAIT / WAIT - 15
R/W / WE - 16
RTA0 - 17
RTA1 - 18
RTA2 - 19
MR - 20
RTA3 - 21
RTA4 - 22
A0 - 23
A1 - 24
A2 - 25
75 - D1
74 - D0
73 - WPOL
72 - BTYPE
71 - BENDI
70 - TEST
69 - LOCK
68 - MTSTOFF
67 - BCENA
66 - DNC*
65 - VCCP
64 - DNC*
63 - DNC*
62 - VCCP
61 - DNC*
60 - GND
59 - DENAA
58 - TXA
57 - DENAB
56 - TXB
55 - BWID
54 - A15
53 - A14
52 - A12
51 - A13
HI-6140PQxF
RTENA - 26
A3 - 27
A4 - 28
A5 - 29
RTAP - 30
MISO - 31
MOSI - 32
A6 - 33
A7 - 34
A8 - 35
VCC - 36
GND - 37
TTCLK - 38
MTTCLK - 39
ECS - 40
EECOPY - 41
ESCK - 42
A9 - 43
A10 - 44
A11 - 45
MTRUN - 46
RXB - 47
HRTA1 - 48
RXA - 49
HRTA0 - 50
TOP VIEW
• 10 Mbps bit rate complies with MMSI / EBR-1553
and SAE AS5652 10Mbps network protocol
• DO-254 certifiable
• May be configured as BC, RT or MT
• 16-bit parallel host bus interface
• 64K bytes on-chip RAM with error detection/
correction option
• Logic level signal interface to standard external
RS-485 transceivers
• Autonomous terminal operation requires minimal
host intervention
• Fully programmable Bus Controller uses 28 op
code instruction set
• BC mode operation provides logic signals to
simplify external MMSI Logical Hub design
• Supports all three AS5652 (MMSI) Bus
Controller modes: Spec, Switch and Link modes
• Simple Monitor Terminal (SMT) Mode records
commands and data separately, with 16-bit or
48-bit time tagging
• Independent time-tag counters for all terminals
with 32-bit option for Bus Controller and 48-bit
option for Monitor Terminal
• 64-Word Interrupt Log Buffer queues the most
recent 32 interrupts. Hardware-assisted interrupt
decoding quickly identifies interrupt sources
• Built-in self-test for protocol logic, digital signal
paths and internal RAM
• Optional self-initialization at reset uses external
serial EEPROM
o
o
• Two temperature ranges: -40 C to +85 C, or
o
o
-55 C to +125 C
100-pin PQFP
* DNC: Do not connect
DS6140 Rev. A
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01/13
HI-6140
BLOCK DIAGRAM
HI-6140 10MBit / Sec 1553 Terminal (RS-485) with Host Parallel Bus Interface
Hub RT Address (MMSI BC only)
IRQ
ACTIVE
*RTMC8
Discrete
Signal
Outputs
INTERNAL
CLOCKS
Address
MCLK
TTCLK
MTTCLK
Memory
and
Register
Access
Control
Data
Control
A0 / LB
MT
Message
Processor
WAIT or WAIT
A15:1
Tx 1553 Words
Host Bus
Interface
MTSTOFF
HI-4853
Bus A
Manchester
Encoder
Rx 1553 Words
STR or OE
Address
BENDI
BC
Message
Processor
BWID
CE
R / W or WE
RTLOCK
RAMEDC
BTYPE
WPOL
RTA4:0
RTAP
Configuration
Option
Logic
Static RAM
and
Registers
VCC
GND
Data
READY
Control
*MTPKRDY
HRTA4:0
(only if 0x004D bit 3 = 1)
TXA
DENAA
Bus A
Manchester
Decoder
DI
A
DE
B
RXA RO
RE
RTENA
RTSSF
ACKIRQ
TXB
DENAB
Bus B
Manchester
Decoder
Words
Control
HI-4853
Bus B
Manchester
Encoder
DI
A
DE
B
RXB RO
RE
RT
Message
Processor
Control
Address
Discrete
Signal
Input
Serial
Peripheral
Interface
(SPI) to
EEPROM
MISO
MOSI
MTRUN
ESCK
BCENA
BCTRIG
ECS
MR
Data
Reset &
Initialization
Logic
Address & Control
AUTOEN
Data
Address
D15:0
EECOPY
Test
Logic
* Two signals not available if register 0x004D bit 3 = 1,
i.e., device configured for MMSI Bus Controller operation
OPTIONAL
SERIAL EEPROM
(AUTO-CONFIG)
Figure 1. HI-6140 Block Diagram
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RS-485
BUS A
TEST
MODE
RS-485
BUS B
HI-6140
PIN DESCRIPTIONS
See HI-6130 datasheet for full Pin Descriptions.
Table 1. Pins that apply to HI-6140 only
Pin
TXA
RXA
TXB
RXB
DENAA
DENAB
HRTA4:0
Function
Description
Output
Unipolar Transmit Data output for Bus A. Connect this pin to the Driver
Input (DI) pin of external RS-485 Transceiver. When building an AS5652
MMSI Bus Controller, this signal goes to the BC Logical Hub which routes
commands to selected hub-RT link(s).
Input
50KΩ pull-up
Unipolar Receive Data input from Bus A. Connect this pin to the Receiver
Output (RO) pin of external RS-485 Transceiver. When building an AS5652
MMSI Bus Controller, this signal comes from the BC Logical Hub which
routes RT command responses from selected hub-RT link(s) into the HI-6140
operating in BC mode.
Output
Unipolar Transmit Data output for Bus B. Connect this pin to the Driver
Input (DI) pin of external RS-485 Transceiver. When building an AS5652
MMSI Bus Controller, this signal goes to the BC Logical Hub which routes
commands to selected hub-RT link(s).
Input
50KΩ pull-up
Unipolar Receive Data input from Bus B. Connect this pin to the Receiver
Output (RO) pin of external RS-485 Transceiver. When building an AS5652
MMSI Bus Controller, this signal comes from the BC Logical Hub which
routes RT command responses from selected hub-RT link(s) into the HI-6140
operating in BC mode.
Output
Driver Enable output for Bus A. Connect this pin to the driver enable (DE)
input pin of external Bus A RS-485 transceiver. When building an AS5652
MMSI Bus Controller, this signal goes to the BC Logical Hub for routing BC
Command Words.
Output
Driver Enable output for Bus B. Connect this pin to the driver enable (DE)
input pin of external Bus B RS-485 transceiver. When building an AS5652
MMSI Bus Controller, this signal goes to the BC Logical Hub for routing BC
Command Words.
Output
AS5652 (MMSI) Bus Controller Hub RT Address. The MMSI BC outputs a
5-bit parallel RT address before issuing a new Command Word. The Logical
Hub uses the hub RT address for Hub-RT link selection. HRTA outputs only
available when register 0x004D bit 3 is logic 1. When selected, the following
pins are not available: TEST4, TEST6, RTMC8, MTPKTRDY.
Note: The HI-6140 may function as a single remote terminal (RT), whereas HI-613x devices can function as two
independent RTs. The pin assignments for dual RT operation in HI-613x (e.g. RT1A4-0, RT2A4-0, RT1AP, RT2AP, etc.)
are replaced with pin assignments for a single RT in HI-6140 (e.g. RTA4:0, RTAP, etc.). Descriptions and functionality
remain the same.
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HI-6140
OPERATION
Refer to the HI-6130 datasheet for detailed operation and register description.
Operational and Protocol Considerations for 10Mbit/sec
The HI-6140 is designed for use in MIL-STD-1553B 10Mbps applications, such as Miniature Munitions Stores Interface
(MMSI) or EBR-1553. The device produces dual redundant Manchester II bi-phase encoded data for transmission
on dual RS-485 busses. External, half-duplex, 20Mbps slew rate controlled RS-485 transceivers (HI-4853) are
recommended for connection to the RS-485 busses (see “Figure 1. HI-6140 Block Diagram” on page 2 and “Pin
Descriptions” on page 3). Timing differences compared to MIL-STD-1553B (measured mid-parity to mid-sync):
• Minimum intermessage Gap = 1μs (vs 4μs for MIL-STD-1553B)
• Minimum No Response Timeout = 8μs (vs 12μs for MIL-STD-1553B)
• RT response time must begin in range 400ns to 4μs
System Architecture
SAE AS5652 MMSI network is as a “star” configuration with each remote terminal connected to a central Bus Controller
using a dedicated RS-485 cable. A Logical Hub provides the individual RT interfaces, a series of Hub-to-RT links. The
Logical Hub routes commands from the BC to the selected RT (or to all RTs, in the case of broadcast commands.)
The Hub also routes RT responses from the selected RT back to the BC. To simplify design of a Logical Hub outside
a HI-6140-based MMSI BC, the device has two configuration bits which apply only for MMSI Bus Controller service:
• When set, register 0x004D bit 3 enables a 5-bit parallel Hub RT Address output. This 5-bit value is updated
at least 250ns before a new Command Word is issued by the BC. The Hub uses this value to activate the appropriate Hub-RT link for Command Word transmission. The link remains active for the RT response to the BC.
• AS5652 MMSI defines 3 RT addressing modes: Spec mode, Switch mode and Link mode. The unique addressing for MMSI Link mode is enabled when register 0x004D bits 4:3 are both high. In this configuration, the
5-bit Hub RT Address (HRTA) output reflects the Command Word in the HI-6140 BC Instruction List; the Hub
uses this value for routing BC command (and RT response) to (and from) the selected Hub-RT link. However
the serial command output from the TXA or TXB transmit data output from the HI-6140 will always contain the
embedded RT address 0 (00000 at command word bits 15:11.
No special addressing consideration is needed for design of an AS5652 MMSI RT based on the HI-6140 device.
Protocol Considerations
• For 10Mbit/sec MMSI applications, single terminal BC, RT or MT operation is recommended.
• In SAE AS5652, transmit mode codes 0,4 and 5 are reserved, not used. Receive mode codes 20-21 are reserved, not used. These mode commands correspond to “Dynamic Bus Control”, and two variants each of “Bus
Shutdown” and “Override Bus Shutdown” mode commands.
• All RT-RT commands are prohibited in MMSI applications. For multi-drop 10Mbit/sec EBR-1553 applications,
the HI-6140 processes conventional RT-RT messages normally. Nonsense RT-RT messages having mode
code (one or both command words with subaddress 0 or 31 decimal) gives unpredictable results. Therefore,
encoding nonsense mode code RT-RT messages for BC is not recommended.
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HI-6140
PACKAGE DIMENSIONS
100-PIN PLASTIC QUAD FLAT PACK (PQFP)
inches (millimeters)
Package Type: 100PQS
.0197 BSC
(0.50)
.630
BSC SQ
(16.0)
.551
BSC SQ
(14.0)
.009 ± .002
(.22 ± .05)
.024 ± .006
(.60 ± .15)
.039
typ
(1.0)
See Detail A
.059 ± .004
(1.50 ± .10)
.008 min
(0.20)
.008 R max
(0.20)
.055 ± .002
(1.40 ± .05)
BSC = “Basic Spacing between Centers”
is theoretical true position dimension and
has no tolerance. (JEDEC Standard 95)
0°
.003 R min
(0.08)
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Detail A
7°
HI-6140
ORDERING INFORMATION
HI - 6140 PQ x F
PART NUMBER
F
LEAD FINISH
100% Matte Tin (Pb-free, RoHS compliant)
PART NUMBER
TEMPERATURE RANGE
-40oC to +85oC
I
o
o
FLOW
BURN IN
I
No
T
-55 C to +125 C
T
No
M
-55oC to +125oC
M
Yes
PART NUMBER
PQ
PACKAGE DESCRIPTION
100 PIN PLASTIC QUAD FLAT PACK, PQFP (100PQS)
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HI-6140
REVISION HISTORY
Revision
DS6140,
Date
Description of Change
Rev. New
05/02/12
Initial Release.
Rev. A
01/03/13
Corrected pin-out. Updated pin names and pin descriptions.
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