SC16C652IB48,151 NXP Semiconductors, SC16C652IB48,151 Datasheet

IC UART DUAL W/FIFO 48-LQFP

SC16C652IB48,151

Manufacturer Part Number
SC16C652IB48,151
Description
IC UART DUAL W/FIFO 48-LQFP
Manufacturer
NXP Semiconductors
Datasheet
1.SC16C652IB48151.pdf (41 pages)

Specifications of SC16C652IB48,151

Features
2 Channels
Number Of Channels
2, DUART
Fifo's
32 Byte
Voltage - Supply
2.5V, 3.3V, 5V
With Auto Flow Control
Yes
With Irda Encoder/decoder
Yes
With False Start Bit Detection
Yes
With Modem Control
Yes
With Cmos
Yes
Mounting Type
Surface Mount
Package / Case
48-LQFP
Transmitter And Receiver Fifo Counter
Yes
Data Rate
5Mbps
Package Type
LQFP
Operating Supply Voltage (max)
5.5V
Mounting
Surface Mount
Pin Count
48
Operating Temperature (min)
-40C
Operating Temperature (max)
85C
Operating Temperature Classification
Industrial
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
568-3277
935270032151
SC16C652IB48-S

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Company:
BOSTOCK HK LIMITED BOSTOCK HK LIMITED
Part Number:
SC16C652IB48,151
Manufacturer:
NXP Semiconductors
Quantity:
10 000
1. Description
2. Features
The SC16C652 is a 2 channel Universal Asynchronous Receiver and Transmitter
(UART) used for serial data communications. Its principal function is to convert
parallel data into serial data and vice versa. The UART can handle serial data rates
up to 5 Mbits/s. The SC16C652 is pin compatible with the SC16C2550. It will
power-up to be functionally equivalent to the 16C2450. The SC16C652 provides
enhanced UART functions with 32-byte FIFOs, modem control interface, DMA mode
data transfer. The DMA mode data transfer is controlled by the FIFO trigger levels
and the TXRDY and RXRDY signals. On-board status registers provide the user with
error indications and operational status. System interrupts and modem control
features may be tailored by software to meet specific user requirements. An internal
loop-back capability allows on-board diagnostics. Independent programmable baud
rate generators are provided to select transmit and receive baud rates.
The SC16C652 operates at 5 V, 3.3 V and 2.5 V and the Industrial temperature
range, and is available in a plastic LQFP48 package.
SC16C652
Dual UART with 32 bytes of transmit and receive FIFOs
Rev. 04 — 20 June 2003
2 channel UART
5 V, 3.3 V and 2.5 V operation
Industrial temperature range
Pin and functionally compatible to 16C2450 and software compatible with
SC16C650
Up to 5 Mbits/s data rate at 5 V and 3.3 V, and 3 Mbit/s at 2.5 V
32-byte transmit FIFO to reduce the bandwidth requirement of the external CPU
32-byte receive FIFO with error flags to reduce the bandwidth requirement of the
external CPU
Independent transmit and receive UART control
Four selectable Receive and Transmit FIFO interrupt trigger levels
Automatic software/hardware flow control
Programmable Xon/Xoff characters
Software selectable Baud Rate Generator
Sleep mode
Standard asynchronous error and framing bits (Start, Stop, and Parity Overrun
Break)
Transmit, Receive, Line Status, and Data Set interrupts independently controlled
Product data

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SC16C652IB48,151 Summary of contents

Page 1

SC16C652 Dual UART with 32 bytes of transmit and receive FIFOs Rev. 04 — 20 June 2003 1. Description The SC16C652 channel Universal Asynchronous Receiver and Transmitter (UART) used for serial data communications. Its principal function is ...

Page 2

Philips Semiconductors Fully programmable character formatting: False start-bit detection Complete status reporting capabilities 3-State output TTL drive capabilities for bi-directional data bus and control bus Line Break generation and detection Internal diagnostic capabilities: Prioritized interrupt system controls Modem control functions ...

Page 3

Philips Semiconductors 4. Block diagram SC16C652 D0–D7 DATA BUS IOR AND IOW CONTROL LOGIC RESET A0–A2 REGISTER CSA SELECT CSB LOGIC INTA, INTB INTERRUPT TXRDYA, TXRDYB CONTROL RXRDYA, RXRDYB LOGIC Fig 1. SC16C652 block diagram. 9397 750 11634 Product data ...

Page 4

Philips Semiconductors 5. Pinning information 5.1 Pinning Fig 2. LQFP48 pin configuration. 5.2 Pin description Table 2: Pin description Symbol Pin Type Description LQFP48 Address 0 select bit. Internal register address selection Address 1 ...

Page 5

Philips Semiconductors Table 2: Pin description …continued Symbol Pin Type Description LQFP48 INTA, INTB 30 Interrupt A, B (3-State). This function is associated with individual channel interrupts, INTA, INTB. INTA, INTB are enabled when MCR bit 3 is ...

Page 6

Philips Semiconductors Table 2: Pin description …continued Symbol Pin Type Description LQFP48 CTSA, 38 Clear to Send (Active-LOW). These inputs are associated with individual UART CTSB channels, A through B. A logic 0 on the CTS pin indicates ...

Page 7

Philips Semiconductors 6. Functional description The SC16C652 provides serial asynchronous receive data synchronization, parallel-to-serial and serial-to-parallel data conversions for both the transmitter and receiver sections. These functions are necessary for converting the serial data stream into parallel data that is ...

Page 8

Philips Semiconductors 6.2 Internal registers The SC16C652 provides two sets of internal registers (A and B) consisting of 12 registers each for monitoring and controlling the functions of each channel of the UART. These registers are shown in holding registers ...

Page 9

Philips Semiconductors Table 5: Selected trigger level (characters 6.4 Hardware flow control When automatic hardware flow control is enabled, the SC16C652 monitors the CTS pin for a remote buffer overflow indication and controls the RTS pin ...

Page 10

Philips Semiconductors In the event that the receive buffer is overfilling and flow control needs to be executed, the SC16C652 automatically sends an Xoff message (when enabled) via the serial TX output to the remote modem. The SC16C652 sends the ...

Page 11

Philips Semiconductors 6.8 Programmable baud rate generator The SC16C652 supports high speed modem technologies that have increased input data rates by employing data compression schemes. For example, a 33.6 kbit/s modem that employs data compression may require a 115.2 kbit/s ...

Page 12

Philips Semiconductors Table 6: Output baud rate 50 75 110 150 300 600 1200 2400 3600 4800 7200 9600 19.2 k 38.4 k 57.6 k 115.2 k 6.9 DMA operation The SC16C652 FIFO trigger level provides additional flexibility to the ...

Page 13

Philips Semiconductors their normal modem control inputs pins, and instead are connected internally to RTS, DTR, MCR[3] (OP2) and MCR[2] (OP1). Loop-back test data is entered into the transmit holding register via the user data bus interface, D0-D7. The transmit ...

Page 14

Philips Semiconductors 7. Register descriptions Table 9 assigned bit functions are more fully defined in Table 9: SC16C652 internal registers Shaded bits are only accessible when EFR[4] is set. [ Register Default [2] General Register Set 0 ...

Page 15

Philips Semiconductors 7.1 Transmit (THR) and Receive (RHR) Holding Registers The serial transmitter section consists of an 8-bit Transmit Hold Register (THR) and Transmit Shift Register (TSR). The status of the THR is provided in the Line Status Register (LSR). ...

Page 16

Philips Semiconductors Table 10: Bit 7.2.1 IER versus Transmit/Receive FIFO interrupt mode operation When the receive FIFO (FCR[0] = logic 1), and receive interrupts (IER[0] = logic 1) are enabled, the receive interrupts and register status will ...

Page 17

Philips Semiconductors 7.2.2 IER versus Receive/Transmit FIFO polled mode operation When FCR[0] = logic 1, resetting IER[0-3] enables the SC16C652 in the FIFO polled mode of operation. In this mode, interrupts are not generated and the user must poll the ...

Page 18

Philips Semiconductors 7.3.2 FIFO mode Table 11: Bit 7-6 5 9397 750 11634 Product data Dual UART with 32 bytes of transmit and receive FIFOs FIFO Control Register bits description Symbol Description FCR[7] RCVR trigger. These bits are ...

Page 19

Philips Semiconductors Table 11: Bit 1 0 Table 12: FCR[ Table 13: FCR[ 9397 750 11634 Product data Dual UART with 32 bytes of transmit and receive FIFOs FIFO Control Register bits ...

Page 20

Philips Semiconductors 7.4 Interrupt Status Register (ISR) The SC16C652 provides six levels of prioritized interrupts to minimize external software interaction. The Interrupt Status Register (ISR) provides the user with four interrupt status bits. Performing a read cycle on the ISR ...

Page 21

Philips Semiconductors 7.5 Line Control Register (LCR) The Line Control Register is used to specify the asynchronous data communication format. The word length, the number of stop bits, and the parity are selected by writing the appropriate bits in this ...

Page 22

Philips Semiconductors 7.6 Modem Control Register (MCR) This register controls the interface with the modem or a peripheral device. Table 20: Bit 9397 750 11634 Product data Dual UART with 32 bytes ...

Page 23

Philips Semiconductors 7.7 Line Status Register (LSR) This register provides the status of data transfers between the SC16C652 and the CPU. Table 21: Bit 9397 750 11634 Product data Dual UART with 32 bytes ...

Page 24

Philips Semiconductors Table 21: Bit 1 0 7.8 Modem Status Register (MSR) This register provides the current state of the control interface signals from the modem, or other peripheral device to which the SC16C652 is connected. Four bits of this ...

Page 25

Philips Semiconductors Table 22: Bit 1 0 [1] Whenever any MSR bit 0-3 is set to logic 1, a Modem Status Interrupt will be generated. 7.9 Scratchpad Register (SPR) The SC16C652 provides a temporary data register to store 8 bits ...

Page 26

Philips Semiconductors Table 23: Bit 5 4 3-0 Table 24: Cont [1] When using a software flow control the Xon/Xoff characters cannot be used for data transfer. 9397 750 11634 ...

Page 27

Philips Semiconductors 7.11 SC16C652 external reset condition Table 25: Register IER FCR ISR LCR MCR LSR MSR SPR DLL DLM Table 26: Output TXA, TXB OP2A, OP2B RTSA, RTSB DTRA, DTRB INTA, INTB 8. Limiting values Table 27: In accordance ...

Page 28

Philips Semiconductors 9. Static characteristics Table 28: DC electrical characteristics + 2 5.0 V 10%, unless otherwise specified. amb CC Symbol Parameter V LOW-level clock input voltage IL(CK) ...

Page 29

Philips Semiconductors 10. Dynamic characteristics Table 29: AC electrical characteristics + 2 5.0 V 10%, unless otherwise specified. amb CC Symbol Parameter clock pulse duration ...

Page 30

Philips Semiconductors 10.1 Timing diagrams A0– CSx t 13d IOW D0–D7 Fig 5. General write timing. A0– CSx t 7d IOR D0–D7 Fig 6. General read timing. 9397 750 11634 Product data Dual UART with 32 ...

Page 31

Philips Semiconductors IOW ACTIVE RTS CHANGE OF STATE DTR CD CTS DSR INT IOR RI Fig 7. Modem input/output timing EXTERNAL CLOCK Fig 8. External clock timing. 9397 750 11634 Product data Dual UART with 32 bytes of ...

Page 32

Philips Semiconductors START BIT RX INT IOR Fig 9. Receive timing. START BIT RX RXRDY IOR Fig 10. Receive ready timing in non-FIFO mode. 9397 750 11634 Product data Dual UART with 32 bytes of transmit and receive FIFOs DATA ...

Page 33

Philips Semiconductors START BIT RX RXRDY IOR Fig 11. Receive ready timing in FIFO mode. START BIT TX INT t 23d ACTIVE IOW Fig 12. Transmit timing. 9397 750 11634 Product data Dual UART with 32 bytes of transmit and ...

Page 34

Philips Semiconductors START BIT TX ACTIVE IOW D0–D7 BYTE #1 t 27d TXRDY Fig 13. Transmit ready timing in non-FIFO mode. 9397 750 11634 Product data Dual UART with 32 bytes of transmit and receive FIFOs DATA BITS (5-8) D0 ...

Page 35

Philips Semiconductors START BIT TX ACTIVE IOW D0–D7 BYTE #32 t 27d TXRDY Fig 14. Transmit ready timing in FIFO mode (DMA mode ‘1’). 9397 750 11634 Product data Dual UART with 32 bytes of transmit and receive FIFOs DATA ...

Page 36

Philips Semiconductors 11. Package outline LQFP48: plastic low profile quad flat package; 48 leads; body 1 pin 1 index DIMENSIONS (mm are the ...

Page 37

Philips Semiconductors 12. Soldering 12.1 Introduction to soldering surface mount packages This text gives a very brief insight to a complex technology. A more in-depth account of soldering ICs can be found in our Data Handbook IC26; Integrated Circuit Packages ...

Page 38

Philips Semiconductors • For packages with leads on two sides and a pitch (e): – larger than or equal to 1.27 mm, the footprint longitudinal axis is preferred to be – smaller than 1.27 mm, the footprint longitudinal axis must ...

Page 39

Philips Semiconductors [3] These transparent plastic packages are extremely sensitive to reflow soldering conditions and must on no account be processed through more than one soldering cycle or subjected to infrared reflow soldering with peak temperature exceeding 217 C oven. ...

Page 40

Philips Semiconductors 14. Data sheet status [1] Level Data sheet status Product status I Objective data Development II Preliminary data Qualification III Product data Production [1] Please consult the most recently issued data sheet before initiating or completing a design. ...

Page 41

Philips Semiconductors Contents 1 Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 2 Features . . . ...

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